% MOOSE/SAM
% https://www.osti.gov/biblio/2467506
@TechReport{Mui_2024b,
  author      = {Travis Mui and Daniel J. O'Grady and Ling Zou and Rui Hu and Robert K. Salko},
  title       = {{SAM code improvements for molten salt reactor transient and species transport modeling}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2024,
  number      = {ANL/NSE-24/73},
  note        = {\url{https://doi.org/10.2172/2467506}}
}

% MOOSE
% "... developed a computational model using the ... (MOOSE) framework, ... Ray Tracing and Heat conduction modules were used to evaluate the temperature distribution ..."
@InProceedings{Machado_2024,
  author    = {Luiz C. Aldeia Machado and Victor Coppo Leite and Elia Merzari and Lesley Wright and Lander Ibarra and Roberto Ponciroli and Pramatha Bhat and Yassin Hassan},
  title     = {Temperature field reconstruction of surfaces heated through radiative heat transfer using convolutional neural networks},
  booktitle = {{Proceedings of the ASME 2024 Heat Transfer Summer Conference}},
  address   = {Anaheim, California},
  pages     = {V001T14A005 (12 pages)},
  month     = jul # {~15--17,},
  year      = 2024,
  note      = {\url{https://doi.org/10.1115/HT2024-130465}}
}

% MOOSE
% This is a presentation that shows several results including TMAP8 coupling and Cardinal neutronics
@TechReport{Icenhour_2024b,
  author      = {Casey T. Icenhour},
  title       = {{Fusion energy research at Idaho National Laboratory: Experimentation and simulation to support safety and rapid technology development}},
  institution = {Idaho National Laboratory},
  day         = 15,
  month       = oct,
  year        = 2024,
  number      = {INL/CON-24-80979},
  note        = {\url{https://www.osti.gov/biblio/2473279}}
}

% MOOSE
% "The first tool is Griffin ... which is a ... (MOOSE) ... based application ..."
% https://www.osti.gov/biblio/2474862
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_129859.pdf
@TechReport{Hanophy_2024b,
  author      = {Joshua T. Hanophy and Ryan H. Stewart and Paolo Balestra and Zhiee Jhia Ooi and Jun Fang and Thanh Hua and Ling Zou},
  title       = {High-temperature gas-cooled pebble-bed reactors running in and transient modeling capabilities demonstration},
  institution = {Idaho National Laboratory},
  day         = 13,
  month       = sep,
  year        = 2024,
  number      = {INL/RPT-24-80533, ANL/NSE-24/63},
  note        = {\url{https://doi.org/10.2172/2474862}}
}

% MOOSE
% "The multiphysics model presented in this report leverages three single-physics models coupled via the MOOSE's MultiApps and Transfer systems..."
% https://www.osti.gov/biblio/2474848
% https://inldigitallibrary.inl.gov/sites/STI/STI/Sort_139724.pdf
@TechReport{Terlizzi_2024b,
  author      = {Stefano Terlizzi and Lise Charlot},
  title       = {{Towards a NEAMS-based high-fidelity model of the MARVEL reactor}},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2024,
  number      = {INL/RPT-24-80887},
  note        = {\url{https://doi.org/10.2172/2474848}}
}

% MOOSE
@Article{Kyriakopoulos_2024,
  author  = {Vasileios Kyriakopoulos and Mauricio {Tano Retamales}},
  title   = {{Validation of MOOSE's subchannel module using the AREVA FCTF heated bundle benchmark}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2024,
  volume  = 428,
  pages   = {113562 (10 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113562}}
}

% MOOSE/Pronghorn
% "The present work utilized Serpent ..., Pronghorn ..., and ... (MOOSE) ... to perform the physics calculations ..."
@Article{Stewart_2024,
  author  = {Ryan Stewart and Jack Cavaluzzi and Paolo Balestra and Gerhard Strydom},
  title   = {Capturing the run-in of a pebble-bed reactor by using thermal feedback and high-fidelity neutronics simulations},
  journal = {Annals of Nuclear Energy},
  month   = nov,
  year    = 2024,
  volume  = 207,
  pages   = {110697 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110697}}
}

% MOOSE/Griffin/Pronghorn
% "Griffin and Pronghorn, which are ... built upon the ... (MOOSE) framework..."
@Article{Jaradat_2024,
  author  = {Mustafa K. Jaradat and Namjae Choi and Abdalla Abou-Jaoude},
  title   = {{Verification of Griffin-Pronghorn-Coupled multiphysics code system against CNRS molten salt reactor benchmark}},
  journal = {Nuclear Science and Engineering},
  month   = dec,
  year    = 2024,
  volume  = 198,
  number  = 12,
  pages   = {2403--2436},
  note    = {\url{https://doi.org/10.1080/00295639.2024.2306702}}
}

% MOOSE/DireWolf
% "This system was modeled and simulated in DireWolf, a ... (MOOSE)-based application..."
@Article{Oncken_2024,
  author  = {Joseph Oncken and Linyu Lin and Vivek Agarwal},
  title   = {Adaptive model predictive control for heat pipe-cooled microreactors under normal and heat pipe failure conditions},
  journal = {Nuclear Technology},
  month   = oct,
  year    = 2024,
  volume  = 210,
  number  = 12,
  pages   = {2274--2289},
  note    = {Special issue featuring papers from the NPIC\&HMIT 2023 International Topical Meeting, \url{https://doi.org/10.1080/00295450.2024.2342206}}
}

% libMesh/SAMRAI
% "This software relies on SAMRAI for its finite difference framework, libMesh for its finite element framework, ..."
@Article{Davey_2024,
  author  = {Marshall Davey and Charles Puelz and Simone Rossi and Margaret Anne Smith and David R. Wells and Greg Sturgeon and W. Paul Segars and John P. Vavalle and Charles S. Peskin and Boyce E. Griffith},
  title   = {Simulating cardiac fluid dynamics in the human heart},
  journal = {PNAS Nexus},
  month   = oct,
  year    = 2024,
  volume  = 3,
  number  = 10,
  pages   = {pgae392 (xx pages)},
  note    = {\url{https://doi.org/10.1093/pnasnexus/pgae392}, ArXiv e-print: \url{https://arxiv.org/abs/2307.02680}}
}

% libMesh/IBAMR
% "All computations for were completed through IBAMR... IBAMR uses other libraries ... including ... libMesh"
% author:facci author:koladouz immersed interface
@Misc{Sacci_2024,
  author       = {Michael J. Facci and Ebrahim M. Koladouz and Boyce E. Griffith},
  title        = {An immersed interface method for incompressible flows and geometries with sharp features},
  month        = oct,
  year         = 2024,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2410.16466}}
}

% MOOSE
@TechReport{Wozniak_2024,
  author      = {Nicholas Wozniak and Gang Yang and Emily Shemon and Ahmed Abdelhameed},
  title       = {{MOOSE-based fast reactor core bowing capabilities: Coupled structural mechanics-thermal fluids demonstration and related verification efforts}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2024,
  number      = {ANL/NEAMS-24/2},
  note        = {\url{https://doi.org/10.2172/2447921}}
}

% MOOSE
% "Phase-field equations ... are solved using the ... (FEM) ... software package MOOSE Framework ..."
@Article{Verma_2024,
  author  = {Prakhar Verma and Sreeraj Puravankara and Jayanta Chakraborty},
  title   = {Combination of a phase-field model with nucleation kinetics to simulate lithium dendrite growth},
  journal = {The Journal of Physical Chemistry C},
  month   = oct,
  year    = 2024,
  pages   = {17328--17341},
  volume  = 128,
  number  = 41,
  note    = {\url{https://doi.org/10.1021/acs.jpcc.4c04588}}
}

% MOOSE
% The DOI was not working the first time I tried it.
% https://www.osti.gov/biblio/2448229
@TechReport{German_2024b,
  author      = {Peter German and Oana Marin and Guillaume L. Giudicelli and Joshua E. Hansel and Daniel Christian Yankura and Lise Charlot and Alexander D. Lindsay and Mauricio Eduardo {Tano Retamales} and Ramiro Oscar Freile},
  title       = {{Continued performance improvement and integration of MOOSE's thermal-hydraulics capabilities}},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2024,
  number      = {INL/RPT-24-80844},
  note        = {\url{https://doi.org/10.2172/2448229}}
}

% MOOSE
% "The tetrahedral mesh representation of this model is generated in Coreform Cubit and then loaded into the finite element method (FEM) solver MOOSE"
% This is a conference paper published in a journal dedicated to
% conference proceedings, so it could be treated in bibtex either an
% InProceedings entry or an Article entry. I have chosen to go with
% the latter.
@Article{Reali_2024b,
  author  = {Luca Reali and William M. E. Ellis and Ander Gray and Max Boleininger and Andrew Davis and Helen M. Brooks and Ioannis Katramados and Andrew J. Thornton and James Buchanan and Sergei L. Dudarev},
  title   = {{Stress, strain, neutron transport and radiation effects in a full fusion tokamak device: A virtual MAST-U study}},
  journal = {EPJ Web of Conferences},
  month   = oct,
  year    = 2024,
  volume  = 302,
  pages   = {06002 (10 pages)},
  note    = {Joint International Conference on Supercomputing in Nuclear Applications + Monte Carlo (SNA + MC 2024), \url{https://doi.org/10.1051/epjconf/202430206002}}
}


% MOOSE
% This is a conference paper published in a journal dedicated to
% conference proceedings, so it could be treated in bibtex either an
% InProceedings entry or an Article entry. I have chosen to go with
% the latter.
@Article{Giudicelli_2024d,
  author  = {Guillaume Giudicelli and Fande Kong and Roy Stogner and Logan Harbour and Stefano Terlizzi and Zachary Prince},
  title   = {Data transfers for full core heterogeneous reactor high-fidelity multiphysics studies},
  journal = {EPJ Web of Conferences},
  month   = oct,
  year    = 2024,
  volume  = 302,
  pages   = {05006 (11 pages)},
  note    = {Joint International Conference on Supercomputing in Nuclear Applications + Monte Carlo (SNA + MC 2024), \url{https://doi.org/10.1051/epjconf/202430205006}}
}

% MOOSE/OpenMC
% "This work couples OpenMC and MOOSE in order to solve the feedback loop..."
% This is a conference paper published in a journal dedicated to
% conference proceedings, so it could be treated in bibtex either an
% InProceedings entry or an Article entry. I have chosen to go with
% the latter.
@Article{Kendrick_2024,
  author  = {William Reed Kendrick and Benoit Forget},
  title   = {{Simulating hydrogen diffusion in ZrH moderator and its impact on coupled neutronic-thermal simulation of a heat pipe microreactor}},
  journal = {EPJ Web of Conferences},
  month   = oct,
  year    = 2024,
  volume  = 302,
  pages   = {05008 (11 pages)},
  note    = {Joint International Conference on Supercomputing in Nuclear Applications + Monte Carlo (SNA + MC 2024), \url{https://doi.org/10.1051/epjconf/202430205008}}
}

% MOOSE/GOLEM
% "The numerical forward simulations are performed in GOLEM ... which is ... based on the MOOSE framework ..."
% author:degen author:ziegler trustworthiness physics-based machine learning
@Misc{Degen_2024,
  author       = {Denise Degen and Moritz Ziegler and Oliver Heidbach and Andreas Henk and Karsten Reiter and Florian Wellmann},
  title        = {{About the trustworthiness of physics-based machine learning --- A considerations for geomechanical applications}},
  month        = oct,
  year         = 2024,
  howpublished = {EGUsphere Preprint},
  note         = {\url{https://doi.org/10.5194/egusphere-2024-2932}}
}

% MOOSE
% "Constructed upon the MOOSE framework, a code designated as SAAFCGSN has been developed ..."
@Article{DJiang_2024b,
  author  = {Duoyu Jiang and Peng Xu and Tianliang Hu and Xinbiao Jiang and Lipeng Wang and Lu Cao and Da Li and Lixin Chen},
  title   = {Numerical solution of static and spatial kinetics self-adjoint angular flux neutron transport equation},
  journal = {Nuclear Engineering and Technology},
  month   = nov,
  year    = 2024,
  volume  = 56,
  number  = 11,
  pages   = {4551--4562},
  note    = {\url{https://doi.org/10.1016/j.net.2024.06.018}}
}

% MOOSE
@Misc{Lindsay_2024,
  author       = {Alexander D. Lindsay},
  title        = {{Hybridized discontinuous Galerkin methods for computational fluid dynamics}},
  month        = sep,
  year         = 2024,
  howpublished = {Poster},
  note         = {INL/CON-24-80774, \url{https://www.osti.gov/biblio/2448235}}
}

% MOOSE
% "The constitutive models ... are implemented in ... (MOOSE) ..."
@mastersthesis{Byerly_thesis,
  author = {Alexis de Caix Byerly},
  school = {Purdue University},
  title  = {A phase-field model with mechanical plasticity to simulate the hot-press sintering of zinc sulfide},
  note   = {\url{https://doi.org/10.25394/PGS.27204540.v1}},
  month  = oct,
  year   = 2024
}

% MOOSE/PorousFlow
% "...the PorousFlow module within ... (MOOSE) was used to reconstruct the ore vein formation with Thermo-Hydro modelling in finite elements."
@InProceedings{Avakian_2024,
  author    = {B. Avakian and E. Gaucher and B. Led{\'{e}}sert},
  title     = {{Clay-rich fault core impact on later fluid circulations---Insights from thermo-hydro modelling}},
  booktitle = {{Proceedings of the Fifth EAGE Global Energy Transition Conference \& Exhibition (GET 2024)}},
  address   = {Rotterdam, Netherlands},
  pages     = {xx (5 pages)},
  publisher = {European Association of Geoscientists \& Engineers},
  month     = nov # {~4--7,},
  year      = 2024,
  note      = {\url{https://doi.org/10.3997/2214-4609.202421151}}
}

% MOOSE
% "The RSM models were generated using utilities on the stochastic tools module ... of ... (MOOSE) ..."
@Article{Harris_2024,
  author  = {Brennan Harris and Donna Post Guillen and Asa Monson and Jonathan Sampson},
  title   = {{Digital light processing of yttria-stabilized zirconia: Modeling photoinitiator decay}},
  journal = {Frontiers in Energy Research},
  month   = sep,
  year    = 2024,
  volume  = 12,
  pages   = {xx (11 pages)},
  note    = {\url{https://doi.org/10.3389/fenrg.2024.1356571}}
}

% MOOSE
% "For the purposes of this work, heat pipe behavior is simulated in MOOSE as a custom object, named MITHP, ..."
@phdthesis{Kendrick_thesis,
  author = {W. Reed Kendrick},
  school = {Massachusetts Institute of Technology},
  title  = {{Neutronic-thermal simulation of micro reactor designs for the purpose of analyzing the impact of thermal expansion and hydrogen migration in metal hydride moderator}},
  note   = {\url{https://hdl.handle.net/1721.1/157171}},
  month  = sep,
  year   = 2024
}

% MOOSE
@TechReport{Giudicelli_2024c,
  author      = {Guillaume Giudicelli and Mengnan Li and Logan Harbour and Patrick Behne and Oana Marin and Roy Stogner and Cody Permann and Alexander Lindsay},
  title       = {{NEAMS} technical area support in {MOOSE}},
  institution = {Idaho National Laboratory},
  day         = 24,
  month       = sep,
  year        = 2024,
  number      = {INL/RPT-24-80749},
  note        = {\url{https://doi.org/10.2172/2448236}}
}

% IBAMR/libMesh
% "The numerical study was conducted using the open-source IBAMR code... The IBAMR functionality relies on the use of several libraries, including PETSc, hypre, and libMesh."
@Article{YLiu_2024,
  author  = {Yuansen Liu and Mengchen Gao and Yongliang Yu},
  title   = {{Kinematics and hydrodynamic performance of zebrafish C-type maneuvers: A comparison of two- and three-dimensional simulations}},
  journal = {AIP Advances},
  month   = oct,
  year    = 2024,
  volume  = 14,
  number  = 10,
  pages   = {105111 (20 pages)},
  note    = {\url{https://doi.org/10.1063/5.0229588}}
}

% MOOSE
@TechReport{Choi_2024c,
  author      = {Namjae Choi and Mengnan Li and Alexander Lindsay and Daniel Schwen and Cody Permann},
  title       = {{Assessing accelerator library integration in MOOSE}},
  institution = {Idaho National Laboratory},
  day         = 24,
  month       = sep,
  year        = 2024,
  number      = {INL/RPT-24-80764},
  note        = {\url{https://doi.org/10.2172/2448234}}
}

% MOOSE
% "... the non-isothermal phase-field model was numerically implemented in ... (MOOSE)"
@Article{LXie_2024,
  author  = {Longlong Xie and Chenguang Liang and Yazhou Qin and He Zhou and Ziyuan Yu and Haodong Chen and Muhammad Zeeshan Naeem and Kaiming Qiao and Yaojie Wen and Baicheng Zhang and Gaofeng Wang and Xiao Li and Jian Liu and Victorino Franco and Ke Chu and Min Yi and Hu Zhang},
  title   = {High-throughput screening of high-performance magnetocaloric materials by gradient additive manufacturing},
  journal = {Advanced Functional Materials},
  month   = oct,
  year    = 2024,
  pages   = {2414441 (13 pages)},
  note    = {\url{https://doi.org/10.1002/adfm.202414441}}
}

% MOOSE
% "An in-house-developed code based on the ... MOOSE framework ... was implemented ..."
@phdthesis{Diallo_thesis,
  author = {Mouhamad Sa{\"{i}}d Al Hamid Diallo},
  school = {University of California, Berkeley},
  title  = {{Dendrite suppression strategies in Li-metal solid-state batteries: Mechanisms and innovations}},
  note   = {\url{https://escholarship.org/uc/item/1350h6c0}},
  month  = oct,
  year   = 2024
}

% MOOSE
% "We performed the simulations using MOOSE, an open-source C++ finite-element framework developed at Idaho National Laboratory ..."
@Article{JPaul_2024,
  author  = {Justine E. Paul and Yuan Gao and Yoo Kyung Go and Luis E. Rodriguez Koett and Anisha Sharma and Manxin Chen and Jacob J. Lessard and Tolga Topkaya and Cecilia Leal and Jeffrey S. Moore and Philippe H. Geubelle and Nancy R. Sottos},
  title   = {Controlled patterning of crystalline domains by frontal polymerization},
  journal = {Nature},
  month   = sep,
  year    = 2024,
  volume  = 634,
  pages   = {85--90},
  note    = {\url{https://doi.org/10.1038/s41586-024-07951-7}}
}

% MOOSE/Griffin
% https://www.researchgate.net/profile/Ling-Zou-4/publication/383923415_Multi-Physics_Simulation_of_a_Pebble_Bed_High-Temperature_Gas-Cooled_Reactor_with_a_SAMGriffin_Coupled_Model/links/66fea7eb9e6e82486ffe9d08/Multi-Physics-Simulation-of-a-Pebble-Bed-High-Temperature-Gas-Cooled-Reactor-with-a-SAM-Griffin-Coupled-Model.pdf
% See also: Ooi_2023b
@InProceedings{Ooi_2024,
  author    = {Zhiee Jhia Ooi and Gang Yang and Travis Mui and Ling Zou and Rui Hu},
  title     = {{Multi-physics simulation of a pebble bed high-temperature gas-cooled reactor with a SAM/Griffin coupled model}},
  booktitle = {{Proceedings of the 2024 International Congress on Advances in Nuclear Power Plants (ICAPP)}},
  address   = {Las Vegas, Nevada},
  pages     = {777--786},
  publisher = {American Nuclear Society},
  month     = jun # {~16--19,},
  year      = 2024,
  note      = {\url{https://www.ans.org/pubs/proceedings/article-56369/}}
}

% MOOSE/SAM
% https://www.ans.org/pubs/proceedings/article-56385/
@InProceedings{Mui_2024,
  author    = {Travis Mui and Rui Hu and Quan Zhou and Thanh Hua and Ling Zou},
  title     = {{System-level tritium transport modeling capability in SAM}},
  booktitle = {{Proceedings of the 2024 International Congress on Advances in Nuclear Power Plants (ICAPP)}},
  address   = {Las Vegas, Nevada},
  pages     = {941--950},
  publisher = {American Nuclear Society},
  month     = jun # {~16--19,},
  year      = 2024,
  note      = {\url{https://doi.org/10.13182/T130-44258}}
}

% MOOSE
% "Simulations were carried out with a custom application built on the open-source ... (MOOSE) Framework."
@Article{Isotta_2024,
  author  = {Eleonora Isotta and Shizhou Jiang and Ruben Bueno-Villoro and Ryohei Nagahiro and Kosuke Maeda and Dominique Alexander Mattlat and Alesanmi R. Odufisan and Alexandra Zevalkink and Junichiro Shiomi and Siyuan Zhang and Christina Scheu and G. Jeffrey Snyder and Oluwaseyi Balogun},
  title   = {Heat transport at silicon grain boundaries},
  journal = {Advanced Functional Materials},
  month   = oct,
  year    = 2024,
  volume  = 34,
  number  = 40,
  pages   = {2405413 (12 pages)},
  note    = {\url{https://doi.org/10.1002/adfm.202405413}}
}

% MOOSE
% "The finite element method is utilized to implement the PFM in an open-source framework, ... (MOOSE) ..."
@Article{CLiang_2024,
  author  = {Chenguang Liang and Ming Xue and Min Yi},
  title   = {Non-isothermal phase-field modeling and simulation of microstructure evolution in magnetic field-assisted selective laser sintering},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = dec,
  year    = 2024,
  volume  = {432, Part B},
  pages   = {117387 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2024.117387}}
}

% MOOSE
% "Section 2 describes the software tools leveraged in this work, which include ... two different approaches for integrating OpenMC into ... (MOOSE) ..."
@Article{Novak_2024,
  author  = {A. J. Novak and H. Brooks and P. Shriwise and A. Davis},
  title   = {{Monte Carlo multiphysics simulation on adaptive unstructured mesh geometry}},
  journal = {Nuclear Engineering and Design},
  month   = dec,
  year    = 2024,
  volume  = 429,
  pages   = {113589 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113589}}
}

% MOOSE
% "All simulations were run using BlackBear ... which is ... based on ... (MOOSE) ..."
% This has a very similar author list and title to Jain_2024, however it has different results and is a distinct paper.
% author:dahal computational assessment of alkali
@Misc{Dahal_2024,
  author       = {Albert Dahal},
  title        = {Computational assessment of alkali-silica-reaction impact on the seismic capacity of nuclear containment vessels},
  month        = oct,
  year         = 2024,
  howpublished = {engr$\chi$iv e-print},
  note         = {\url{https://doi.org/10.31224/4042}}
}

% MOOSE/BlackBear
% "... these models were implemented in BlackBear ... which is a code based on ... (MOOSE) ..."
% author:jain author:spencer author:dahal multiphysics simulation
@Misc{Jain_2024,
  author       = {Amit Jain and Benjamin Spencer and Albert Dahal and Sudipta Biswas and Somayajulu Dhulipala},
  title        = {Multiphysics simulation of recent experiments on alkali-silica reaction expansion in reinforced concrete members},
  month        = sep,
  year         = 2024,
  howpublished = {engr$\chi$iv e-print},
  note         = {\url{https://doi.org/10.31224/3951}}
}

% MOOSE
% "The fatigue-damage model was implemented using the MOOSE ... framework ..."
@Article{DTian_2024,
  author  = {Deyan Tian and Zhengyang Song and Kavan Khaledi and Zhen Yang and Florian Amann},
  title   = {Experimental and numerical analyses of creep-fatigue behavior in sandstone for energy storage applications},
  journal = {Journal of Energy Storage},
  month   = nov,
  year    = 2024,
  volume  = {101, Part A},
  pages   = {113879 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.est.2024.113879}}
}

% MOOSE
% "Here, the tensor mechanics module of the highly parallel code MOOSE was used..."
% author:ellis author:reali author:davis author:brooks mechanical model
@Misc{Ellis_2024,
  author       = {W. M. E. Ellis and L. Reali and A. Davis and H. M. Brooks and I. Katramados and A. J. Thornton and R. A. Akers and S. L. Dudarev},
  title        = {Mechanical model for a full fusion tokamak enabled by supercomputing},
  month        = sep,
  year         = 2024,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2409.13554}}
}

% libMesh/IBAMR
% "A computational framework for parachute inflation is developed ... within the open-source IBAMR library."
@Article{YHuang_2024,
  author  = {Yunyao Huang and Yang Zhang and Tianmei Pu and He Jia and Shiqing Wu and Chunhua Zhou},
  title   = {A computational framework for parachute inflation based on immersed boundary/finite element approach},
  journal = {Transactions of Nanjing University of Aeronautics \& Astronautics},
  month   = sep,
  year    = 2024,
  volume  = 41,
  number  = 4,
  pages   = {502--514},
  note    = {\url{https://doi.org/10.16356/j.1005-1120.2024.04.007}}
}

% MOOSE
% "A new feature tracking and remapping algorithm ... in MOOSE was adopted to enable merging of the two segmented parts of the matrix grain during twin evolution."
% "Furthermore, the low-energy and low-mobility properties of twins were also taken into consideration by using the twin identification technique in MOOSE/-YINGLONG ..."
% See also: WPeng_2023
@Article{WPeng_2024,
  author  = {Wei Peng and Xiao Li and Jianbao Gao and Chenyun He and Yong Zhang and Tiwen Lu and Xiancheng Zhang and Lijun Zhang and Binhan Sun and Shantung Tu},
  title   = {{Abnormal grain growth behavior in gradient nanostructured titanium investigated by coupled quasi-in-situ EBSD experiments and phase-field simulations}},
  journal = {Acta Materialia},
  month   = sep,
  year    = 2024,
  volume  = 276,
  pages   = {120141 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2024.120141}, Corrigendum: \url{https://doi.org/10.1016/j.actamat.2024.120292}}
}

% MOOSE
% "The coupled thermo-chemical model in Eqs. (1) and (2) are solved using ... (MOOSE)..."
@Article{ZChen_2024,
  author  = {Zhuoting Chen and Xiang Zhang},
  title   = {Manufacturing multifunctional vascularized composites by through-thickness frontal polymerization and depolymerization: A numerical study on the impact of sacrificial fiber configurations},
  journal = {Composites Science and Technology},
  month   = mar,
  year    = 2024,
  volume  = 247,
  pages   = {110394 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.compscitech.2023.110394}}
}

% MOOSE
% "The model is solved using ... (MOOSE) ..."
% Abstract: https://www.bssm.org/media/cu3ptzlq/where-experimental-mechanics-and-supercomputing-meet-uncertainty.pdf
% Program: https://www.bssm.org/media/1tzdbsgh/final-liverpool-programme-300824.pdf
% Paper was presented at 09:20 Wednesday 4th September 2024
@InProceedings{Fletcher_2024,
  author    = {L. Fletcher and M. Atkinson and A. Marsh and A. Tayeb and C. Hamelin},
  title     = {{Where experimental mechanics and supercomputing meet: Uncertainty quantification for fusion validation}},
  booktitle = {{Proceedings of the 18th International Conference on Advances in Experimental Mechanics}},
  address   = {Liverpool, United Kingdom},
  publisher = {British Society for Strain Measurement},
  month     = sep # {~3--5,},
  year      = 2024,
  note      = {\url{https://tinyurl.com/2peeyjk4}}
}

% Maybe MOOSE
% See also: Wandke_2021, Wandke_2023, Wandke_2023b
@Article{Wandke_2024,
  author  = {Kevin Wandke and {Y Z}},
  title   = {{Drift-correcting multiphysics informed neural network coupled PDE solver}},
  journal = {IEEE Journal on Multiscale and Multiphysics Computational Techniques},
  month   = sep,
  year    = 2024,
  volume  = 9,
  pages   = {303--311},
  note    = {\url{https://doi.org/10.1109/JMMCT.2024.3452977}}
}

% Maybe MOOSE
% See also: Zwarts_2024
% Requested full-text on ResearchGate
@Article{Zwarts_2024b,
  author  = {Sijmen Zwarts and Martin Lesueur},
  title   = {{Predicting the Representative Elementary Volume by determining the evolution law of the convergence cone}},
  journal = {Geomechanics for Energy and the Environment},
  month   = dec,
  year    = 2024,
  volume  = 40,
  pages   = {100594 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.gete.2024.100594}}
}

% MOOSE
% "The authors used ... NIsoS, which was developed based on ... MOOSE."
@Article{Fathidoost_2024,
  author  = {Mozhdeh Fathidoost and Yangyiwei Yang and Nathalie Thor and Jan Bernauer and Astrid Pundt and Ralf Riedel and Bai-Xiang Xu},
  title   = {Thermal conductivity analysis of polymer-derived nanocomposite via image-based structure reconstruction, computational homogenization, and machine learning},
  journal = {Advanced Engineering Materials},
  month   = sep,
  year    = 2024,
  volume  = 26,
  number  = 17,
  pages   = {2302021 (11 pages)},
  note    = {Special Issue: Materials Compounds from Composite Materials for Applications in Extreme Conditions, \url{https://doi.org/10.1002/adem.202302021}}
}

% MOOSE/GOLEM
% "We build our approach on a finite element model using the MOOSE/GOLEM framework ..."
@Article{QDeng_2024,
  author  = {Qinglin Deng and Jean Schmittbuhl and Mauro Cacace and Guido Bl{\"{o}}cher},
  title   = {Mechanical stiffness and permeability of a reservoir-scale rough fracture during closure},
  journal = {JGR Solid Earth},
  month   = sep,
  year    = 2024,
  volume  = 129,
  number  = 9,
  pages   = {e2024JB029001 (23 pages)},
  note    = {\url{https://doi.org/10.1029/2024JB029001}}
}

% BISON
% This is a review paper, so there do not seem to be any new computational results, but the discussion revolves heavily around the capabilities of BISON.
@Article{Probert_2024,
  author  = {Allison Probert and Justin Watson and Assel Aitkaliyeva},
  title   = {{An assessment of UO$_2$ and ATF concept fuel performance modeling demands against current experimental capabilities under LOCA conditions}},
  journal = {Annals of Nuclear Energy},
  month   = sep,
  year    = 2024,
  volume  = 205,
  pages   = {110581 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110581}}
}

% MOOSE/Pronghorn
% "In the current study, extensive CFD simulations were conducted ... using ... Nek5000 and ... Pronghorn."
@Article{JFang_2024b,
  author  = {Jun Fang and Mauricio Tano and Nadish Saini and Ananias Tomboulides and Victor Coppo-Leite and Elia Merzari and Bo Feng and Dillon Shaver},
  title   = {{CFD simulations of molten salt fast reactor core cavity flows}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2024,
  volume  = 424,
  pages   = {113294 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113294}}
}

% MOOSE/SAM
% "SAM utilizes ... (MOOSE) ... with its underlying meshing and finite-element library (libMesh)"
% https://deepblue.lib.umich.edu/handle/2027.42/194371
@phdthesis{Huxford_thesis,
  author = {Aaron Huxford},
  school = {University of Michigan},
  title  = {The verification, validation and application of a hybrid domain overlapping coupling between system thermal hydraulics and computational fluid dynamics codes},
  note   = {\url{https://doi.org/10.7302/23719}},
  month  = sep,
  year   = 2024
}

% MOOSE
% " ... (MOOSE) ... was adopted in the present study."
% author:gao author:feng author:yu author:chen front propagation
@Misc{Gao_2024,
  author       = {Yuan Gao and Yuqun Feng and Xiaotong Yu and Rong Chen and Philippe Geubelle},
  title        = {Front propagation accelerated by convection-driven symmetry breaking in frontal polymerization},
  month        = sep,
  year         = 2024,
  howpublished = {ResearchSquare Preprint},
  note         = {\url{https://doi.org/10.21203/rs.3.rs-4847662/v1}}
}

% MOOSE
% "A MOOSE-based application for the HCF under normal conditions and RIA is developed and verified."
@Article{YHou_2024,
  author  = {Yandong Hou and Yiliang Dong and Chuntian Gao and Bowen Chen and Chao Zhang and Weichao Li and Yan Xiang},
  title   = {{U-50Zr helical cruciform fuel performance analysis based on MOOSE framework}},
  journal = {Annals of Nuclear Energy},
  month   = sep,
  year    = 2024,
  volume  = 204,
  pages   = {110529 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110529}}
}

% MOOSE-FARMS
% I assume MOOSE is used because it is cited, and because the name of their software has "MOOSE" in it.
@Article{CZhao_2024,
  author  = {Chunhui Zhao and Mid Shumon Mia and Ahmed Elbanna and Yehuda Ben-Zion},
  title   = {Dynamic rupture modeling in a complex fault zone with distributed and localized damage},
  journal = {Mechanics of Materials},
  month   = nov,
  year    = 2024,
  volume  = 198,
  pages   = {105139 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.mechmat.2024.105139}}
}

% MOOSE
% "Boundary conditions and body forces can be incorporated in the finite element program MOOSE..."
% https://www.researchgate.net/publication/380137870_Strain_Gradient_Finite_Element_Formulation_of_Flexoelectricity_in_Ferroelectric_Material_Based_on_Phase-Field_Method
@Article{SWang_2024,
  author  = {Shuai Wang and Hengchang Su and Min Yi and Li-Hua Shao},
  title   = {Strain gradient finite element formulation of flexoelectricity in ferroelectric material based on phase-field method},
  journal = {Acta Mechanica Solida Sinica},
  month   = aug,
  year    = 2024,
  volume  = 37,
  number  = 4,
  pages   = {570--579},
  note    = {\url{https://doi.org/10.1007/s10338-024-00485-5}}
}

% MOOSE/Sockeye
@Article{Hansel_2024b,
  author  = {Joshua E. Hansel and Carolina {da Silva Bourdot Dutra} and Lise Charlot and Elia Merzari},
  title   = {{The liquid-conduction, vapor-flow heat pipe model in Sockeye}},
  journal = {Nuclear Engineering and Design},
  month   = sep,
  year    = 2024,
  volume  = 426,
  pages   = {113359 (16 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113359}}
}

% MOOSE/BISON
@Article{Hales_2024,
  author  = {Jason D. Hales and Wen Jiang},
  title   = {{Versatile TRISO fuel particle modeling in Bison}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2024,
  volume  = 428,
  pages   = {113515 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113515}}
}

% MOOSE/Cardinal
% "This section will introduce the ... (MOOSE) framework as the tool used to set up a multiphysics simulation of the MSFR."
% https://etda.libraries.psu.edu/files/final_submissions/30726
@mastersthesis{Emler_2024,
  author = {Casey Emler},
  school = {The Pennsylvania State University},
  title  = {Towards reduced order modeling of multiphysics analysis of molten salt reactors},
  note   = {\url{https://etda.libraries.psu.edu/catalog/28778cae5292}},
  month  = aug,
  year   = 2024
}

% MOOSE/BISON
@mastersthesis{Gardner_2024,
  author = {Russell Gardner},
  school = {University of Idaho},
  title  = {{Validation of the BISON fuel performance code against the second experiment of the Advanced Gas Reactor Program (AGR-2)}},
  note   = {\url{https://www.proquest.com/openview/cb98dee86a096d76dea26bd4682d78c7}},
  month  = aug,
  year   = 2024
}

% MOOSE
% "In this study, ...  an integrated crystal plasticity finite element-phase-field (CPFE-PF) framework developed using ... (MOOSE) ..."
@Article{Chatterjee_2024,
  author  = {Ritam Chatterjee and Aayush Trivedi and S. V. S. {Narayana Murty} and Alankar Alankar},
  title   = {{Crystal plasticity-phase-field based analyses of interfacial microstructural evolution during dynamic recrystallization in a dual phase titanium alloy}},
  journal = {International Journal of Plasticity},
  month   = oct,
  year    = 2024,
  volume  = 181,
  pages   = {104087 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2024.104087}}
}

% MOOSE
% "The phase field model was numerically implemented ... within the simulator "Panda's Multi-Physics" ... developed based on the ... (MOOSE) framework."
@Article{FZhuo_2024,
  author  = {Fangping Zhuo and Xiandong Zhou and Felix Dietrich and Mehrzad Soleimany and Patrick Breckner and Pedro B. Groszewicz and Bai-Xiang Xu and Gerd Buntkowsky and J{\"{u}}rgen R{\"{o}}del},
  title   = {{Dislocation density-mediated functionality in single-crystal BaTiO$_3$}},
  journal = {Advanced Science},
  month   = aug,
  year    = 2024,
  volume  = 11,
  number  = 31,
  pages   = {2403550 (12 pages)},
  note    = {\url{https://doi.org/10.1002/advs.202403550}}
}

% HADES/MOOSE
% "Here, a new fully-coupled Thermal-Hydraulic (TH) code HADES ... is developed using the MOOSE framework."
@Article{Park_2024,
  author  = {Samuel Park and Nakkyu Chae and Pilhyeon Ju and Seungjin Seo and Richard I. Foster and Sungyeol Choi},
  title   = {{Coupled 3D thermal-hydraulic code development for performance assessment of spent nuclear fuel disposal system}},
  journal = {Nuclear Engineering and Technology},
  month   = sep,
  year    = 2024,
  volume  = 56,
  number  = 9,
  pages   = {3950--3960},
  note    = {\url{https://doi.org/10.1016/j.net.2024.04.043}}
}

% MOOSE
% "The work of this dissertation involves the development of a 2D finite element analysis model, leveraging the robust MOOSE framework ..."
@phdthesis{Mejia_thesis,
  author = {Alejandro Mejia},
  school = {West Virginia University},
  title  = {{Investigation of space charge effects on CO$_2$ electrocatalytic reduction on Gd-doped ceria via scanning Kelvin probe and model-based Bayesian analysis}},
  note   = {\url{https://researchrepository.wvu.edu/etd/12624}},
  month  = aug,
  year   = 2024
}

% MOOSE/Griffin
% "... (ANL) and INL have developed a GRIFFIN ... model for ... (KRUSTY) microreactor in ... (MOOSE)."
% https://www.osti.gov/biblio/2426926
@Misc{Bloss_2024,
  author       = {Brandon M. Bloss and Hikaru Hiruta},
  title        = {{Model validation and uncertainty quantification on the KRUSTY Microreactor design using GRIFFIN neutron transport code}},
  month        = aug,
  year         = 2024,
  howpublished = {Poster},
  note         = {INL/MIS-24-79789, \url{https://doi.org/10.2172/2426926}}
}

% MOOSE/phase_field
% "The evolution equations were ... discretized using the finite element method ... MOOSE ..."
@Article{Aagesen_2024b,
  author  = {Larry K. Aagesen},
  title   = {Parameterization of vacancy production rate in phase-field models of fission gas bubble evolution in nuclear fuel},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2024,
  volume  = 601,
  pages   = {155311 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155311}}
}

% MOOSE
% "... the proposed model for concrete moisture diffusivity was utilized in a finite element analysis of moisture diffusion using MOOSE framework..."
@Article{Dehwah_2024b,
  author  = {Osamah H. A. Dehwah and H'mida Hamidane and Yunping Xi},
  title   = {Characterization of effective moisture diffusivity based on pore structure of concrete},
  journal = {Scientific Reports},
  month   = aug,
  year    = 2024,
  volume  = 14,
  number  = 1,
  pages   = {18450 (16 pages)},
  note    = {\url{https://doi.org/10.1038/s41598-024-66300-w}}
}

% MOOSE/MARMOT
% "The phase field model is implemented in the mesoscale MARMOT code based on ... (MOOSE)"
% "The MOOSE input files used to generate the simulation results in this paper, ... can be obtained from the authors upon reasonable request."
@Article{Toma_2024,
  author  = {Peter Toma and Md Ali Muntaha and Joel B. Harley and Michael R. Tonks},
  title   = {{Modeling fission gas release at the mesoscale using multiscale DenseNet regression with attention mechanism and inception blocks}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2024,
  volume  = 601,
  pages   = {155315 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155315}, ArXiv e-print: \url{https://arxiv.org/abs/2310.08767}}
}

% MOOSE
% "In our model, the authors employed a thermal-hydraulics-chemical (T-H-C) coupled model, which was developed by Chae et al. based on the MOOSE framework..."
@Article{Chae_2024,
  author  = {Nakkyu Chae and Seungjin Seo and Richard I. Foster and Sungyeol Choi},
  title   = {{Oxic corrosion model for KAERI Reference disposal system via O$_2$ consumption reactions and mixed-potential theory}},
  journal = {npj Materials Degradation},
  month   = aug,
  year    = 2024,
  volume  = 8,
  number  = 1,
  pages   = {80 (12 pages)},
  note    = {\url{https://doi.org/10.1038/s41529-024-00497-z}}
}

% MOOSE
% "The open-source software packages that were utilized in the process were ... MOOSE framework ..."
% https://www.researchgate.net/publication/382857669_Method_for_Computer_Tomography_voxel-based_finite_element_analysis_and_validation_with_digital_image_correlation_system
% DOI was not working when I first tried it, but the following link was:
% https://www.sciencedirect.com/science/article/pii/S2215016124003315
@Article{DPaul_2024,
  author  = {Debangshu Paul and Zachariah Arwood and Pierre-Yves Mulon and Dayakar Penumadu and Timothy Truster},
  title   = {Method for computer tomography voxel-based finite element analysis and validation with digital image correlation system},
  journal = {MethodsX},
  month   = dec,
  year    = 2024,
  volume  = 13,
  pages   = {102879 (21 pages)},
  note    = {\url{https://doi.org/10.1016/j.mex.2024.102879}}
}

% MOOSE/SAM
% " ... a system model consisting of the System Analysis Module (SAM) coupled to Simulink is developed."
@Article{Rivas_2024,
  author  = {Andy Rivas and Gregory Kyriakos Delipei and Jason Hou},
  title   = {{Modeling a generic pebble bed high-temperature gas-cooled reactor to perform load-following using Simulink}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2024,
  volume  = 428,
  pages   = {113506 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113506}}
}

% MOOSE/PorousFlow
% "The governing equations are coupled and solved using MOOSE PorousFlow modules ..."
@Article{Omrani_2024,
  author  = {Sina Omrani and Christopher Green and Muhammad Sahimi and Vahid Niasar},
  title   = {Anomalies of solute transport in flow of shear-thinning fluids in heterogeneous porous media},
  journal = {Physics of Fluids},
  month   = jul,
  year    = 2024,
  volume  = 36,
  number  = 7,
  pages   = {076629 (xx pages)},
  note    = {\url{https://doi.org/10.1063/5.0213271}}
}

% MOOSE
% "Crystal plasticity finite element method simulations ...  were performed using ... (MOOSE 2.0) software ..."
@Article{TYChang_2024,
  author  = {Tzu-Yi Chang and Gavin Vandenbroeder and David M. Frazer and Dewen Yushu and Stephanie Pitts and Tianyi Chen},
  title   = {Nanoindentation stress relaxation to quantify dislocation velocity-stress exponent},
  journal = {Crystals},
  month   = jul,
  year    = 2024,
  volume  = 14,
  number  = 8,
  pages   = {680 (12 pages)},
  note    = {\url{https://doi.org/10.3390/cryst14080680}}
}

% MOOSE/BlueCRAB
% "This study creates a robust framework ... using the Comprehensive Reactor Analysis Bundle, or BlueCRAB, based on ... (MOOSE)."
% https://www.researchgate.net/publication/374380585_Sensitivity_Analysis_Surrogate_Modeling_and_Optimization_of_Pebble-Bed_Reactors_Considering_Normal_and_Accident_Conditions
@Article{Prince_2024c,
  author  = {Zachary Prince and Paolo Balestra and Javier Ortensi and Sebastien Schunert and Olin Calvin and Joshua T. Hanophy and Kun Mo and Gerhard Strydom},
  title   = {Sensitivity analysis, surrogate modeling, and optimization of pebble-bed reactors considering normal and accident conditions},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2024,
  volume  = 428,
  pages   = {113466 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113466}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4598728}}
}

% MOOSE
% "... the numerical approach employed here within the MOOSE framework is fully coupled."
@Article{Ouf_2024,
  author  = {Josselin Ouf and Julian Osten and Wen Luo and Kavan Khaledi and Mohammadreza Jalali and Philip J. Vardon and Florian Amann},
  title   = {Experimental and numerical analysis of injection-induced permeability changes in pre-existing fractures},
  journal = {Geomechanics for Energy and the Environment},
  month   = sep,
  year    = 2024,
  volume  = 39,
  pages   = {100576 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.gete.2024.100576}}
}

% MOOSE
% The Navier-Stokes module is run to test the cluster's power management capabilities.
@InProceedings{Anderson_2024,
  author    = {Matthew Anderson and Matthew Sgambati},
  title     = {High performance computing peak shaving for microreactor operation},
  booktitle = {{Practice and Experience in Advanced Research Computing 2024: Human Powered Computing (PEARC'24)}},
  address   = {Providence, RI, USA},
  pages     = {13 (7 pages)},
  month     = jul # {~21--25,},
  year      = 2024,
  note      = {\url{https://doi.org/10.1145/3626203.3670517}}
}

% MOOSE
% Paper topic looks very similar to Anderson_2024, they likely used MOOSE to test the cluster again.
@InProceedings{Anderson_2024b,
  author    = {Matthew Anderson and Matthew Sgambati},
  title     = {Microgrid integration with high performance computing systems for microreactor operation},
  booktitle = {{2024 IEEE International Conference on Cluster Computing Workshops (CLUSTER Workshops)}},
  address   = {Kobe, Japan},
  pages     = {44--54},
  month     = sep # {~24--27,},
  year      = 2024,
  note      = {\url{https://doi.org/10.1109/CLUSTERWorkshops61563.2024.00017}}
}

% MOOSE/SAM
% To facilitate code development, SAM utilizes ... (MOOSE) ... and its underlying meshing and finite-element library (libMesh) ..."
@TechReport{Cervi_2024b,
  author      = {Eric Cervi and Travis Mui and Thanh Hua and Ling Zou and Rui Hu},
  title       = {{SAM code enhancements for modeling of liquid metal-cooled fast reactor concepts}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = jun,
  year        = 2024,
  number      = {ANL/NSE-24/35},
  note        = {\url{https://www.osti.gov/biblio/2403355}}
}

% MOOSE
% "The FEM formulation is developed and implemented in the open-source computational framework MOOSE..."
@Article{FLiu_2024,
  author  = {Feihong Liu and Andrea P. Arg{\"{u}}elles and Christian Peco},
  title   = {{Numerical dispersion and dissipation in 3D wave propagation for polycrystalline homogenization}},
  journal = {Finite Elements in Analysis and Design},
  month   = nov,
  year    = 2024,
  volume  = 240,
  pages   = {104212 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.finel.2024.104212}}
}

% MOOSE
% "The mixed formulation for plane stress is implemented in the SolidMechanics module of ... (MOOSE) ..."
@Article{HChen_2024b,
  author  = {Hailong Chen and Wen Jiang and Benjamin W. Spencer},
  title   = {A mixed formulation of the plane-stress problem to facilitate reuse of constitutive models in finite-element programs},
  journal = {Mechanics Research Communications},
  month   = aug,
  year    = 2024,
  volume  = 139,
  pages   = {104307 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.mechrescom.2024.104307}}
}

% MOOSE/Ferret
% "We ... used the FERRET module ... of (MOOSE)"
@Article{Muraleedharan_2024,
  author  = {Athulya Muraleedharan and Kevin Co and Maxime Vallet and Abdelali Zaki and Fabienne Karolak and Christine Bogicevic and Karen Perronet and Brahim Dkhil and Charles Paillard and C{\'{e}}line Fiorini-Debuisschert and Fran{\c{c}}ois Treussart},
  title   = {Ferroelectric texture of individual barium titanate nanocrystals},
  journal = {ACS Nano},
  month   = jul,
  year    = 2024,
  volume  = 18,
  number  = 28,
  pages   = {18355--18367},
  note    = {\url{https://doi.org/10.1021/acsnano.4c02291}, ArXiv e-print: \url{https://arxiv.org/abs/2402.14502}}
}

% MOOSE
% "The above equations are implemented into the finite element framework MOOSE..."
@Article{ShiDai_2024,
  author  = {Shi Dai and Daijun Hu and Nicol{\`{o}} Grilli and Shaohua Zou and Zichen Deng and Wentao Yan},
  title   = {{Anisotropic and high-temperature deformation behavior of additively manufactured AlSi10Mg: Experiments and microscale modeling}},
  journal = {Additive Manufacturing},
  month   = jun,
  year    = 2024,
  volume  = 89,
  pages   = {104285 (17 pages)},
  note    = {\url{https://doi.org/10.1016/j.addma.2024.104285}}
}

% MOOSE
% "In Section 2, a phenomenological CP model ... is presented, which is numerically implemented in ... (MOOSE)..."
@Article{WenxuanHu_2024,
  author  = {Wenxuan Hu and Min Yi},
  title   = {Predicting tensile behavior and fatigue life of laser shock peened titanium alloy by crystal plasticity model},
  journal = {International Journal of Fatigue},
  month   = oct,
  year    = 2024,
  volume  = 187,
  pages   = {108476 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijfatigue.2024.108476}}
}

% MOOSE/Ferret
% "Calculations are performed using the Ferret module ... which is part of the open-source MOOSE framework"
@Article{Huang_2024,
  author  = {Xiaoxi Huang and Xianzhe Chen and Yuhang Li and others},
  title   = {Manipulating chiral spin transport with ferroelectric polarization},
  journal = {Nature Materials},
  month   = jul,
  year    = 2024,
  volume  = 23,
  number  = 7,
  pages   = {898--904},
  note    = {\url{https://doi.org/10.1038/s41563-024-01854-8}, ArXiv e-print: \url{https://arxiv.org/abs/2306.02185}}
}

% MOOSE/NIsoS
% "The non-isothermal simulator (NIsoS) program based on the MOOSE framework is employed to implement the non-isothermal phase-field model ..."
% author:bharech author:yang ML-extendable
@Misc{Bharech_2024,
  author       = {Somnath Bharech and Yangyiwei Yang and Michael Selzer and Britta Nestler and Bai-Xiang Xu},
  title        = {{ML-extendable framework for multiphysics-multiscale simulation workflow and data management using Kadi4Mat}},
  month        = jul,
  year         = 2024,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2407.02162}}
}

% MOOSE
% "The model used is ... implemented using the MOOSE Incompressible NS module ..."
@Article{Morsell_2024,
  author  = {Joshua Morsell and Corey Dechant and Grayson Gall and Duncan Trosan and Amanda M Lietz and Katharina Stapelmann and Steven Shannon},
  title   = {Estimation of mean electron energy in helium surface ionization waves on dielectric substrates},
  journal = {Journal of Physics D: Applied Physics},
  month   = jul,
  year    = 2024,
  volume  = 57,
  number  = 39,
  pages   = {395202 (17 pages)},
  note    = {\url{https://doi.org/10.1088/1361-6463/ad5451}}
}

% MOOSE
% "Equations (1) to (17) are implemented in the finite element solver MOOSE..."
@Article{Haq_2024,
  author  = {Fariha Haq and Andrew Pham and Subramanya Sadasiva and Guangxu Li and Marisol Koslowski},
  title   = {{The role of Sn grain orientation in Cu depletion of Sn-based solders}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = jul,
  year    = 2024,
  volume  = 32,
  number  = 6,
  pages   = {065017 (15 pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ad56a7}}
}

% MOOSE/Pronghorn
% "These LES simulation results are compared to porous media model results from the Pronghorn porous media code."
@Article{Reger_2024,
  author  = {David Reger and Elia Merzari and Paolo Balestra and Yassin Hassan},
  title   = {{Improving the modeling of near-wall interphase heat transfer in porous media models of pebble bed reactors}},
  journal = {Nuclear Engineering and Design},
  month   = oct,
  year    = 2024,
  volume  = 427,
  pages   = {113424 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113424}}
}

% MOOSE
% https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/4m90f471b
@mastersthesis{QWilliams_thesis,
  author = {Quinton J. Williams},
  type   = {{Master's Thesis}},
  school = {Oregon State University},
  title  = {{Development of a steady state surrogate model for an AGN-201 digital twin using MOOSE}},
  note   = {\url{https://tinyurl.com/86sk9chf}},
  month  = apr,
  year   = 2024
}

% MOOSE
@InProceedings{German_2024,
  author    = {P{\'{e}}ter German and Alexander D. Lindsay and Mauricio E. Tano and Guillaume L. Giudicelli and Ramiro O. Freile and Sebastian Schunert},
  title     = {{Development of segregated thermal-hydraulics solvers in MOOSE}},
  booktitle = {{Proceedings of the 2024 ANS Annual Meeting}},
  address   = {Las Vegas, Nevada},
  pages     = {xx (4 pages)},
  month     = jun # {~9--12,},
  year      = 2024,
  note      = {\url{https://www.osti.gov/biblio/2375482}, INL Technical Report INL/CON-23-75464}
}

% MOOSE
% "The proposed model was implemented using the open-source finite element-based solver MOOSE ..."
@Article{Guin_2024c,
  author  = {Sandip Guin and Miral Verma and Soumya Bandyopadhyay and Yu-Chieh Lo and Rajdip Mukherjee},
  title   = {{Solute segregation in a moving grain boundary: A novel phase-field approach}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = jun,
  year    = 2024,
  volume  = 32,
  number  = 6,
  pages   = {065009 (xx pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ad585d}, ArXiv e-print: \url{https://arxiv.org/abs/2308.08262}}
}

% MOOSE
% "The authors of this work would like to thank ... Jason Hales and Daniel Schwen of Idaho National Laboratory for their contributions to the MOOSE codes used in this work."
@Article{Kadambi_2024,
  author  = {Sourabh B. Kadambi and Larry K. Aagesen and Yongfeng Zhang and Benjamin Beeler},
  title   = {{Assessment of effective elastic constants of U-10Mo fuel: A multiscale modeling and homogenization study}},
  journal = {Journal of Nuclear Materials},
  month   = oct,
  year    = 2024,
  volume  = 599,
  pages   = {155225 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155225}}
}

% MOOSE
% "Employing a ... phase-field fracture framework within ... (MOOSE) to study in-situ crack evolution."
@Article{Darabi_2024,
  author  = {Roya Darabi and Erfan Azinpour and Ana Reis and Jose Cesar {de Sa}},
  title   = {Elasto-plastic phase-field analysis of thermal induced-cracking and its application towards metal additive manufacturing},
  journal = {European Journal of Mechanics - A/Solids},
  month   = sep # {--} # oct,
  year    = 2024,
  volume  = 107,
  pages   = {105369 (28 pages)},
  note    = {\url{https://doi.org/10.1016/j.euromechsol.2024.105369}}
}

% MOOSE
% "The set of PDEs ... are solved using finite element method in ... (MOOSE) Framework..."
@Article{ZZhang_2024,
  author  = {Zhijie Zhang and Hong Wei and Xing Gao and Anil Kunwar},
  title   = {{Thermal and compositional fields to maneuver Cu$_6$Sn$_5$ intermetallic growth on (111) nanotwinned copper substrate}},
  journal = {Journal of Alloys and Compounds},
  month   = sep,
  year    = 2024,
  volume  = 998,
  pages   = {174876 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.jallcom.2024.174876}}
}

% MOOSE
% "The finite element framework MOOSE is utilized for implementing the material model..."
@Article{Arunachala_2024,
  author  = {Prajwal Kammardi Arunachala and Sina Abrari Vajari and Matthias Neuner and Jay Sejin Sim and Renee Zhao and Christian Linder },
  title   = {A multiscale anisotropic polymer network model coupled with phase field fracture},
  journal = {International Journal for Numerical Methods in Engineering},
  month   = jul,
  year    = 2024,
  volume  = 125,
  number  = 13,
  pages   = {e7488 (36 pages)},
  note    = {\url{https://doi.org/10.1002/nme.7488}}
}

% MOOSE/MASTODON
% "The numerical simulation of the soil-tunnel-fault system is conducted in ... (MASTODON) based on MOOSE framework."
@Article{Banjare_2024,
  author  = {Bhavesh Banjare and Gauri Ranjan Krishna Chand Avatar},
  title   = {{Stochastic assessment of 3-D tunnels in near-fault ground motion using modified domain reduction method}},
  journal = {Numerical and Analytical Methods in Geomechanics},
  month   = jun,
  year    = 2024,
  volume  = 48,
  number  = 9,
  pages   = {2259--2284},
  note    = {\url{https://doi.org/10.1002/nag.3733}}
}

% MOOSE/phase_field
@Article{Aagesen_2024,
  author  = {Larry K. Aagesen and Stephanie A. Pitts and Brennan K. Harris and Tiankai Yao and Lucas D. Robinson and R. Edwin Garc{\'{i}}a},
  title   = {Electrochemical grand potential-based phase-field simulation of electric field-assisted sintering},
  journal = {Acta Materialia},
  month   = aug,
  year    = 2024,
  volume  = 275,
  pages   = {120049 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2024.120049}}
}

% libMesh/IBAMR
% "... the custom-made software used to run electrophysiology simulations ... utilized ... libMesh..."
% https://dukespace.lib.duke.edu/items/65d32aa4-d98b-418f-ac4c-9647f0cd4ce2
@phdthesis{Moran_thesis,
  author = {Josu{\'{e}} Daniel Natar{\'{e}}n Mor{\'{a}}n},
  school = {Duke University},
  title  = {{Classifying human atrial electrograms and generating patient-specific models of the left atrial posterior wall using point cloud data to simulate electrograms arising from different tissue substrates}},
  note   = {\url{https://hdl.handle.net/10161/30912}},
  month  = mar,
  year   = 2024
}

% MOOSE/RMC
% "... coupled analysis for the plate-type reactor is proposed based on ... (MOOSE) and Monte Carlo code RMC."
@Article{JChen_2024,
  author  = {Junyi Chen and Guodong Liu and Shanfang Huang and Ying He and Meiming Qiu and Kan Wang and Chuan Lu and Zhigang Li},
  title   = {{Full-scale neutronic/thermal-hydraulic coupling analysis of plate-type reactor based on RMC and MOOSE}},
  journal = {Progress in Nuclear Energy},
  month   = sep,
  year    = 2024,
  volume  = 174,
  pages   = {105278 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2024.105278}}
}

% MOOSE
% "The proposed model is employed in the MOOSE software, a finite element method (FEM) based solver ..."
% https://www.researchgate.net/publication/381373297_Effect_of_Cr_Segregation_on_Grain_Growth_in_Nanocrystalline_alpha-Fe_Alloy_A_Multiscale_Modelling_Approach
% author:guin author:linda author:lo effect of cr segregation
@Misc{Guin_2024b,
  author       = {Sandip Guin and Albert Linda and Yu-Chieh Lo and Somanth Bhowmick and Rajdip Mukherjee},
  title        = {{Effect of Cr segregation on grain growth in nanocrystalline $\alpha$-Fe alloy: A multiscale modelling approach}},
  month        = jun,
  year         = 2024,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2406.08437}}
}

% MOOSE
% "All the required FEM objects and architecture are provided by MOOSE..."
% author:guin author:bandyopadhyay interplay between thermal compositional
@Misc{Guin_2024,
  author       = {Sandip Guin and Soumya Bandyopadhyay and Saswata Bhattacharyya and Rajdip Mukherjee},
  title        = {{Interplay between thermal and compositional gradients decides the microstructure during thermomigration: A phase-field study}},
  month        = jun,
  year         = 2024,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2406.00649}}
}

% MOOSE
% "The multiphysics model of the gHPMR relies on three ... [MOOSE] based applications: Griffin, BISON, and Sockeye..."
% https://www.osti.gov/biblio/2356755/
@TechReport{Ortensi_2024,
  author      = {Javier Ortensi and Mustafa K. Jaradat and Joshua Hansel and Stefano Terlizzi},
  title       = {The monolithic heat pipe microreactor reference plant model},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = apr,
  year        = 2024,
  number      = {INL/RPT-24-77914},
  note        = {\url{https://doi.org/10.2172/2356755}}
}

% MOOSE
% "We have used the open-source finite element library, ... (MOOSE) for the phase field and plasticity simulations"
@Article{Pai_2024,
  author  = {Namit Pai and Indradev Samajdar and Anirban Patra},
  title   = {{Microstructural and mechanistic insights into the tension-compression asymmetry of rapidly solidified Fe-Cr alloys: A phase field and strain gradient plasticity study}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = aug,
  year    = 2024,
  volume  = 189,
  pages   = {105695 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2024.105695}, ArXiv e-print: \url{https://arxiv.org/abs/2403.11080v1}}
}

% MOOSE/NIsoS
% "The theoretical models are numerically implemented ... within the program NIsoS, developed by authors based on MOOSE ..."
% https://www.researchgate.net/publication/379721401_Elasto-plastic_residual_stress_analysis_of_selective_laser_sintered_porous_materials_based_on_3D-multilayer_thermo-structural_phase-field_simulations
@Article{YYang_2024,
  author  = {Yangyiwei Yang and Somnath Bharech and Nick Finger and Xiandong Zhou and Joerg Schr{\"{o}}der and Bai-Xiang Xu},
  title   = {{Elasto-plastic residual stress analysis of selective sintered porous materials based on 3D-multilayer thermo-structural phase-field simulations}},
  journal = {npj Computational Materials},
  month   = may,
  year    = 2024,
  volume  = 10,
  pages   = {117 (17 pages)},
  note    = {\url{https://doi.org/10.1038/s41524-024-01296-5}, ArXiv e-print: \url{https://arxiv.org/abs/2310.13351}}
}

% MOOSE
% "The entire process model is implemented using MOOSE ... (FEA)."
% https://tigerprints.clemson.edu/cgi/viewcontent.cgi?article=4616&context=all_dissertations
@phdthesis{Zadeh_thesis,
  author = {Cameron Zadeh},
  school = {Clemson University},
  title  = {{Multi-scale modeling of selective laser sintering: From manufacturing process and microstructure to mechanical performance in semi-crystalline thermoplastics}},
  note   = {\url{https://tigerprints.clemson.edu/all_dissertations/3621}},
  month  = may,
  year   = 2024
}

% MOOSE
% "Comparisons of these schemes' performances were performed ... using the MOOSE ... framework..."
@Article{Shin_2024,
  author  = {Wooseob Shin and Pierre-Cl{\'{e}}ment A. Simon and Kunok Chang},
  title   = {{Comparison of excess free energy at an interface according to the applied interpolation scheme for elasticity: A phase-field method}},
  journal = {Computational Materials Science},
  month   = jul,
  year    = 2024,
  volume  = 243,
  pages   = {113111 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2024.113111}}
}

% MOOSE
% "The governing equations describing a multiphysics involved system are implemented ... based on the MOOSE environment..."
@Article{XTang_2024,
  author  = {XiaoJie Tang and ManMan Hu},
  title   = {Acid-assisted subcritical blunt-tip crack propagation in carbonate rocks},
  journal = {Acta Geotechnica},
  month   = may,
  year    = 2024,
  volume  = 19,
  number  = 5,
  pages   = {3095--3113},
  note    = {\url{https://doi.org/10.1007/s11440-024-02288-x}}
}

% libMesh
% "OpenMC ... offers a wide range of capabilities, including the ability to perform cell and libMesh unstructured mesh tallies, ..."
% I'm not sure what the coupling is between OpenMC and libMesh, or if this refers to a different tool with the same name.
% See also: YuZhong_2024
@Article{YuZhong_2024b,
  author  = {Yu Zhong and Qi Wang and Chunyan Zou and Guifeng Zhu and Wei Guo and Zhichao Wang and Yong Wang},
  title   = {Neutronics and thermal-hydraulics coupled analysis on dimensional change and lifespan of graphite components in small modular molten salt reactor},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2024,
  volume  = 425,
  pages   = {113344 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113344}}
}

% libMesh
% "In the present work, the neutronics models were built using DAG-OpenMC for CAD-based geometries and libMesh for unstructured mesh tallies."
@Article{YuZhong_2024,
  author  = {Yu Zhong and Chunyan Zou and Qi Wang and Guifeng Zhu and Wei Guo and Zhichao Wang},
  title   = {Comparative irradiated dimensional change strain analyses of two types of graphite components in a thorium molten salt reactor},
  journal = {Energies},
  month   = may,
  year    = 2024,
  volume  = 17,
  number  = 11,
  pages   = {2469 (20 pages)},
  note    = {\url{https://doi.org/10.3390/en17112469}}
}

% MOOSE
% "The MOOSE framework, ... features are leveraged in our ... numerical techniques developed for large-scale biological simulations..."
@Article{YXiao_2024,
  author  = {Yuanxin Xiao and Niloofar Fani and Fariborz Tavangarian and Christian Peco},
  title   = {Nested structure role in the mechanical response of spicule inspired fibers},
  journal = {Bioinspiration \& Biomimetics},
  month   = may,
  year    = 2024,
  volume  = 19,
  number  = 4,
  pages   = {046008 (15 pages)},
  note    = {\url{https://doi.org/10.1088/1748-3190/ad483e}}
}

% MOOSE/BISON
% "... we use the finite element nuclear fuel performance code BISON ..."
@Article{Recuero_2024b,
  author  = {A. M. Recuero and K. A. Gamble and D. Yushu and A. D. Lindsay},
  title   = {{Multidimensional modeling of fuel-cladding friction in an LWR fuel rod}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2024,
  volume  = 424,
  pages   = {113291 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.113291}}
}

% MOOSE/BISON
@Article{Parsons_2024,
  author  = {Caitlyn B. Parsons and Pierre-Cl{\'{e}}ment A. Simon and Brian D. Wirth},
  title   = {{Impact of temperature variations on BISON predictions of Ag release in AGR-1 and AGR-2 experiments}},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2024,
  volume  = 598,
  pages   = {155139 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155139}}
}

% MOOSE/BISON
% "This information is then used to analyze the thermomechanical performance of the MARVEL fuel element ... using the nuclear fuel performance code BISON."
@Article{Evans_2024,
  author  = {Jordan A. Evans and Ryan T. Sweet and Pavel G. Medvedev and Adrian R. Wagner and Carlo Parisi and Travis L. Lange and Emmanuel Perez and Francine Rice and Jan-Fong Jue and Eric Woolstenhulme and Dennis D. Keiser and Yasir Arafat},
  title   = {{Uranium-zirconium hydride nuclear fuel performance in the NaK-cooled MARVEL microreactor}},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2024,
  volume  = 598,
  pages   = {155145 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155145}}
}

% MOOSE
% It is not explicitly stated that MOOSE is used, however the MOOSE paper is referenced in this sentence describing the numerical method:
% "tetrahedral mesh ... of about 200,000 affine elements using the finite-element formulation and a second-order accurate semi-implicit central difference time-stepping scheme..."
% See also, Tsolaki_2023
@Article{Corso_2024,
  author  = {Pascal Corso and Dominik Obrist},
  title   = {{On the role of aortic valve architecture for physiological hemodynamics and valve replacement, Part I: Flow configuration and vortex dynamics}},
  journal = {Computers in Biology and Medicine},
  month   = jun,
  year    = 2024,
  volume  = 176,
  pages   = {108526 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.compbiomed.2024.108526}}
}

% BISON
% "The BISON fuel performance code was used to study the effect of a Cr-coating on clad ballooning ..."
% https://minds.wisconsin.edu/bitstream/handle/1793/85267/Cole%20Dunbar%20Thesis%20Final.pdf
@phdthesis{Dunbar_thesis,
  author = {Cole J. Dunbar},
  school = {University of Wisconsin Madison},
  title  = {Thermomechanical performance of Cr-coated zirconium alloy during loss of coolant accident},
  note   = {\url{https://minds.wisconsin.edu/handle/1793/85267}},
  month  = may,
  year   = 2024
}

% MOOSE
% "Subsequently, the FE simulations are conducted in the open-source FE software MOOSE."
@Article{Peng_2024,
  author  = {Xiang-Long Peng and Bai-Xiang Xu},
  title   = {Unraveling impacts of polycrystalline microstructures on ionic conductivity of ceramic electrolytes by computational homogenization and machine learning},
  journal = {Journal of Applied Physics},
  month   = sep,
  year    = 2024,
  volume  = 136,
  number  = 10,
  pages   = {105101 (13 pages)},
  note    = {\url{https://doi.org/10.1063/5.0223138}, ArXiv e-print: \url{https://arxiv.org/abs/2405.09227}}
}

% MOOSE
% "Using the FE solver MOOSE, the formulation summarized in Section 2.2 can be used to model any mode I fracture problem."
@Article{Marziale_2024,
  author  = {Joseph J. Marziale and Jason Sun and Eric A. Walker and Yu Chen and David Salac and James Chen},
  title   = {{The effect of chemical vapor infiltration process parameters on flexural strength of porous $\alpha$-SiC: a numerical model}},
  journal = {Journal of the American Ceramic Society},
  month   = jul,
  year    = 2024,
  volume  = 107,
  number  = 7,
  pages   = {4604--4620},
  note    = {\url{https://doi.org/10.1111/jace.19739}}
}

% MOOSE/CRAB
@TechReport{Choi_2024,
  author      = {Namjae Choi and Mustafa Kamel {Jaradat Mohammad} and Vincent Labour{\'{e}} and Stefano Terlizzi and Jason Albert Christensen},
  title       = {{Advancements in multiphysics microdepletion analysis of an eVinci\textsuperscript{TM}-like microreactor leveraging OpenMC-CRAB workflow}},
  institution = {Idaho National Laboratory},
  day         = 9,
  month       = mar,
  year        = 2024,
  number      = {INL/RPT-24-77346},
  note        = {\url{https://doi.org/10.2172/2341461}}
}

% MOOSE/Cardinal
% This is a conference paper from PHYSOR 2024
@InProceedings{Eltawila_2024,
  author    = {Mahmoud Eltawila and April J. Novak and Y. Miao},
  title     = {{Coupled multiphysics modeling of heat pipe microreactors using Cardinal, BISON, and Sockeye}},
  booktitle = {{Proceedings of the International Conference on Physics of Reactors (PHYSOR 2024)}},
  address   = {San Francisco, California},
  pages     = {862--871},
  publisher = {American Nuclear Society},
  month     = apr # {~21--24,},
  year      = 2024,
  note      = {\url{https://doi.org/10.13182/PHYSOR24-43638}}
}

% MOOSE/Griffin
% This is a conference paper from PHYSOR 2024
@InProceedings{Hanophy_2024,
  author    = {Joshua Hanophy and Javier Ortensi and Paolo Balestra and Yaqi Wang},
  title     = {{Initial demonstration of new Griffin capability for simulating the Running-In phase of pebble-bed reactors with multiphysics}},
  booktitle = {{Proceedings of the International Conference on Physics of Reactors (PHYSOR 2024)}},
  address   = {San Francisco, California},
  pages     = {2278--2287},
  publisher = {American Nuclear Society},
  month     = apr # {~21--24,},
  year      = 2024,
  note      = {\url{https://www.ans.org/pubs/proceedings/article-55696}}
}

% MOOSE/Griffin
% "This paper introduces the ring-heterogeneous geometry approximation scheme being employed in Griffin..."
% https://www.researchgate.net/publication/381200866_Investigation_of_Ring-heterogeneous_Geometry_Approximation_for_Efficient_and_Practical_SFR_Analysis
% This is a conference paper from PHYSOR 2024
@TechReport{Choi_2024b,
  author      = {Namjae Choi and Stefano Terlizzi and Yaqi Wang and Hansol Park and Chang-ho Lee and Javier Ortensi},
  title       = {{Investigation of ring-heterogeneous geometry approximation for efficient and practical SFR analysis}},
  institution = {Idaho National Laboratory},
  day         = 22,
  month       = apr,
  year        = 2024,
  number      = {INL/CON-23-75234},
  note        = {\url{https://www.osti.gov/biblio/2356819}}
}

% MOOSE
% This is a conference paper from PHYSOR 2024
@TechReport{Jaradat_2024c,
  author      = {Mustafa Kamel {Mohammad Jaradat} and Mark D. DeHart and Sebastian Schunert and Frederick N. Gleicher},
  title       = {{Prediction of the TREAT facility power and temperature of Sirius-2c nuclear propulsion fuel experiment}},
  institution = {Idaho National Laboratory},
  day         = 22,
  month       = apr,
  year        = 2024,
  number      = {INL/CON-24-76205},
  note        = {\url{https://www.osti.gov/biblio/2341470}}
}

% MOOSE
% This is a conference paper from PHYSOR 2024
@TechReport{Jaradat_2024b,
  author      = {Mustafa Kamel {Mohammad Jaradat} and Namjae Choi and Mauricio Eduardo {Tano Retamales} and Sebastian Schunert and Abdalla Abou-Jaoude and Javier Ortensi},
  title       = {{Verification and validation activities of molten salt reactors multiphysics coupling schemes at Idaho National Laboratory}},
  institution = {Idaho National Laboratory},
  day         = 22,
  month       = apr,
  year        = 2024,
  number      = {INL/CON-23-75308},
  note        = {\url{https://www.osti.gov/biblio/2341471}}
}

% MOOSE
@Article{Prince_2024b,
  author  = {Zachary M. Prince and Lynn Munday and Dewen Yushu and Max Nezdyur and Murthy Guddati},
  title   = {{MOOSE Optimization Module: Physics-constrained optimization}},
  journal = {SoftwareX},
  month   = may,
  year    = 2024,
  volume  = 26,
  pages   = {101754 (7 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2024.101754}}
}

% MOOSE
% "This modeling framework is implemented in the open-source finite element package MOOSE..."
@Article{Singh_2024,
  author  = {Avtar Singh and Jihun Song and Wei Li and Trevor Martin and Hongyi Xu and Donal P. Finegan and Juner Zhu},
  title   = {Microstructure-chemomechanics relations of polycrystalline cathodes in solid-state batteries},
  journal = {Extreme Mechanics Letters},
  month   = jun,
  year    = 2024,
  volume  = 69,
  pages   = {102164 (12 pages)},
  note    = {\url{https://doi.org/10.1016/j.eml.2024.102164}}
}

% MOOSE
% "... a multiphysics reference plant model for the ABTR was developed using the ... (MOOSE)-based Comprehensive Reactor Analysis Bundle (CRAB) ..."
% https://www.osti.gov/biblio/2341323
@TechReport{Terlizzi_2024,
  author      = {Stefano Terlizzi and Namjae Choi and Jackson R. Harter and Ishita Trivedi and Travis Mui and Javier Ortensi },
  title       = {Sodium-cooled fast reactor reference plant model},
  institution = {Idaho National Laboratory},
  day         = 29,
  month       = mar,
  year        = 2024,
  number      = {INL/RPT-24-76937},
  note        = {\url{https://doi.org/10.2172/2341323}}
}

% MOOSE/ERMINE
% "ERMINE simulations are based on the open-source FE framework called MOOSE"
@Article{HKim_2024,
  author  = {Hokon Kim and Jerry H. Mason and William K. Epting and Harry W. Abernathy and Anthony D. Rollett and Paul A. Salvador},
  title   = {Systematic and predictive trends to chromium poisoning in solid oxide fuel cell cathodes},
  journal = {Journal of Power Sources},
  month   = may,
  year    = 2024,
  volume  = 603,
  pages   = {234390 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.jpowsour.2024.234390}}
}

% MOOSE
% See also: JWang_2023
@Article{JWang_2024,
  author  = {Jiachen Wang and Hua Hou and Yuhong Zhao},
  title   = {Phase-field simulation of magnesium-metal anode interface growth in different electrolytes during electrodeposition},
  journal = {Journal of Energy Storage},
  month   = may,
  year    = 2024,
  volume  = 87,
  pages   = {111450 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.est.2024.111450}}
}

% libMesh/FEMuS
% "This paper presents a coupling strategy ... to link the in-house FEMuS code with the well-established OpenFOAM software."
% Note: the preprint has a different author ordering but the same title, I assume it's the same paper.
@Article{Barbi_2024,
  author  = {Giacomo Barbi and Antonio Cervone and Federico Giangolini and Sandro Manservisi and Lucia Sirotti},
  title   = {{Numerical coupling between a FEM Code and the FVM code OpenFOAM using the MED library}},
  journal = {Applied Sciences},
  month   = apr,
  year    = 2024,
  volume  = 14,
  number  = 9,
  pages   = {3744 (23 pages)},
  note    = {\url{https://doi.org/10.3390/app14093744}, Preprints.org pre-print: \url{https://doi.org/10.20944/preprints202404.0229.v1}}
}

% MOOSE/Cardinal
% "This analysis is performed with Cardinal, an open-source code that couples NekRS ... and OpenMC ... to ... (MOOSE)
% https://www.researchgate.net/publication/380151383_Multiphysics_Simulation_of_TRISO_Fuel_Compacts_and_the_Effects_of_Homogenization
@InProceedings{Hegazy_2024b,
  author    = {Aya Hamdy Hegazy and April Novak and Rizwan Uddin},
  title     = {{Multiphysics simulation of TRISO fuel compacts and the effects of homogenization}},
  booktitle = {{Physics of Reactors (PHYSOR)}},
  address   = {San Francisco, California},
  publisher = {American Nuclear Society},
  month     = apr # {~21--24,},
  year      = 2024,
  note      = {\url{https://tinyurl.com/3c43xxx5}}
}

% MOOSE
% "The equations are implemented into the finite element framework MOOSE..."
@Article{DHu_2024,
  author  = {Daijun Hu and Zixu Guo and Nicol{\`{o}} Grilli and Aloysius Tay and Zhen Lu and Wentao Yan},
  title   = {{Understanding the strain localization in additively manufactured materials: Micro-scale tensile tests and crystal plasticity modeling}},
  journal = {International Journal of Plasticity},
  month   = jun,
  year    = 2024,
  volume  = 177,
  pages   = {103981 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2024.103981}}
}

% MOOSE/Griffin
% "All testing was performed using the CRAM implementation in the Griffin reactor physics analysis application."
@Article{Calvin_2024,
  author  = {Olin W. Calvin and Namjae Choi},
  title   = {{Application of the Gauss--Seidel method to the Chebyshev Rational Approximation Method for solving nuclear fuel depletion systems}},
  journal = {Nuclear Science and Engineering},
  month   = jun,
  year    = 2024,
  volume  = 198,
  number  = 6,
  pages   = {1255--1275},
  note    = {\url{https://doi.org/10.1080/00295639.2023.2241807}}
}

% MOOSE/BISON
% "To demonstrate this ... within the BISON code ..., we analyzed a TRISO fuel particle ..."
@Article{Recuero_2024,
  author  = {Antonio M. Recuero and Gyanender Singh and Wen Jiang},
  title   = {{Fracture mechanics approach to TRISO fuel particle failure analysis}},
  journal = {Journal of Nuclear Materials},
  month   = aug,
  year    = 2024,
  volume  = 596,
  pages   = {155083 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155083}}
}

% MOOSE
% "... implement the ... equations ... in the VPSC framework ... and the open source CPFE-based $\rho$-CP solver ... which uses ... MOOSE framework"
@Article{Patra_2024,
  author  = {Anirban Patra and Carlos N. Tom{\'{e}}},
  title   = {{A dislocation density-based crystal plasticity constitutive model: Comparison of VPSC effective medium predictions with $\rho$-CP finite element predictions}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = jun,
  year    = 2024,
  volume  = 32,
  number  = 4,
  pages   = {045014 (xx pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ad3e99}}
}

% MOOSE
% "The governing equations of the solution-diffusion model are implemented using ... Multiphysics Object-Oriented Simulation Environment..."
@Article{Ghasemi_2024,
  author  = {Mehdi Ghasemi and Sina Omrani and Arash Rabbani and Lev Sarkisov and Masoud Babaei},
  title   = {{Shape engineering for improved gas separation: Computation-driven insights on harnessing platonic particles in mixed-matrix membranes}},
  journal = {Journal of Membrane Science},
  month   = may,
  year    = 2024,
  volume  = 702,
  pages   = {122793 (40 pages)},
  note    = {\url{https://doi.org/10.1016/j.memsci.2024.122793}}
}

% MOOSE
% "To solve the governing equations, we use the open-source multiphysics code MOOSE..."
@Article{Green_2024,
  author  = {Christopher Green and Samuel J. Jackson and James Gunning and Andy Wilkins and Jonathan Ennis-King},
  title   = {{Modelling the FluidFlower: Insights from characterisation and numerical predictions}},
  journal = {Transport in Porous Media},
  month   = mar,
  year    = 2024,
  volume  = 151,
  number  = 5,
  pages   = {1093--1111},
  note    = {\url{https://doi.org/10.1007/s11242-023-01969-7}}
}

% MOOSE/Cardinal
% "Cardinal makes use of the transfer capabilities in MOOSE... "
% https://www.researchgate.net/publication/379751062_Multiphysics_Explicit_Simulation_of_Randomly_Distributed_TRISO_Fuel_Particles
@InProceedings{Hegazy_2024,
  author    = {Aya Hamdy Hegazy and April Novak and Rizwan Uddin},
  title     = {{Multiphysics explicit simulation of randomly distributed TRISO fuel particles}},
  booktitle = {{Proceedings of the 2024 ANS Student Conference}},
  address   = {University Park, Pennsylvania},
  pages     = {xx (4 pages)},
  month     = apr # {~4--6,},
  year      = 2024,
  note      = {\url{https://tinyurl.com/4hy572dj}}
}

% MOOSE/TMAP8
% "The MOOSE-based TMAP8 code can ... perform tritium and thermal transport in complex geometries and multiphysics environments."
@Article{Shimada_2024,
  author  = {Masashi Shimada and Pierre-Cl{\'{e}}ment A. Simon and Casey T. Icenhour and Gyanender Singh},
  title   = {Toward a high-fidelity tritium transport modeling for retention and permeation experiments},
  journal = {Fusion Engineering and Design},
  month   = jun,
  year    = 2024,
  volume  = 203,
  pages   = {114438 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.fusengdes.2024.114438}}
}

% MOOSE
% "The resulting formulation is implemented ... (MOOSE)"
@Article{Ruan_2024,
  author  = {Qichao Ruan and Esteban P. Busso and Zhangchen Fan and Chao Ling and Dongfeng Li},
  title   = {A novel continuum dislocation density field-based crystal plasticity theory},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = jun,
  year    = 2024,
  volume  = 187,
  pages   = {105643 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2024.105643}}
}

% MOOSE/BISON
% "... a data-driven non-intrusive uncertainty quantification method via polynomial chaos expansion is introduced ... within ... BISON."
% "The impact of four independent uncertain input variables on the system output was quantified, requiring fewer than 100 BISON simulations for each model."
@Article{Kobayashi_2024,
  author  = {Kazuma Kobayashi and Dinesh Kumar and Syed Bahauddin Alam},
  title   = {{AI-driven non-intrusive uncertainty quantification of advanced nuclear fuels for digital twin-enabling technology}},
  journal = {Progress in Nuclear Energy},
  month   = jul,
  year    = 2024,
  volume  = 172,
  pages   = {105177 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2024.105177}}
}

% libMesh
% "In the implementation of finite elements, we use a finite element library, libMesh"
% DOI for the full proceedings: https://doi.org/10.1007/978-3-031-50769-4
% https://link.springer.com/book/9783031507687
% http://www.ddm.org/DD27/Proc-27.php
% http://www.ddm.org/DD27/proceedings/043_61_DD27_Biot_FETI_DP_edited.pdf
@InCollection{PLee_2024,
  author    = {Pilhwa Lee},
  title     = {{FETI-DP preconditioners for 2D Biot model with discontinuous Galerkin discretization}},
  pages     = {351--358},
  year      = 2024,
  publisher = {Springer Nature Switzerland},
  booktitle = {Domain Decomposition Methods in Science and Engineering XXVII},
  volume    = 149,
  series    = {Lecture Notes in Computational Science and Engineering},
  editor    = {Zden{\v{e}}k Dost{\'a}l and Tom{\'a}{\v{s}} Kozubek and Axel Klawonn and Ulrich Langer and Luca F. Pavarino and Jakub {\v{S}}{\'i}stek and Olof B. Widlund},
  note      = {\url{https://doi.org/10.1007/978-3-031-50769-4_42}, from the 27th International Conference on Domain Decomposition Methods (DD27), Prague, Czech Republic, (July 25--29, 2022), ArXiv e-print: \url{https://arxiv.org/abs/2211.15670}}
}

% libMesh
% "In our implementation, we use a fiinite [sic] element library, libMesh."
% https://link.springer.com/book/9783031507687
% http://www.ddm.org/DD27/Proc-27.php
% http://www.ddm.org/DD27/proceedings/060_63_DD27_Biot_GenEO_edited.pdf
@InCollection{PLee_2024b,
  author    = {Pilhwa Lee},
  title     = {Biot model with generalized eigenvalue problems for scalability and robustness to parameters},
  pages     = {487--494},
  year      = 2024,
  publisher = {Springer Nature Switzerland},
  booktitle = {Domain Decomposition Methods in Science and Engineering XXVII},
  volume    = 149,
  series    = {Lecture Notes in Computational Science and Engineering},
  editor    = {Zden{\v{e}}k Dost{\'a}l and Tom{\'a}{\v{s}} Kozubek and Axel Klawonn and Ulrich Langer and Luca F. Pavarino and Jakub {\v{S}}{\'i}stek and Olof B. Widlund},
  note      = {\url{https://doi.org/10.1007/978-3-031-50769-4_58}, from the 27th International Conference on Domain Decomposition Methods (DD27), Prague, Czech Republic, (July 25--29, 2022), ArXiv e-print: \url{https://arxiv.org/abs/2211.15025}}
}

% libMesh
% "Open-source libraries like libMesh ... and SuperLU ... allow us to implement the numerical solution method."
% https://www.researchgate.net/publication/372584350_LCPOM_Precise_Reconstruction_of_Polarized_Optical_Microscopy_Images_of_Liquid_Crystals
@Article{CChen_2024,
  author  = {Chuqiao Chen and Viviana Palacio-Betancur and Sepideh Norouzi and Pablo F. {Zubieta-Rico} and Nina Chang and Monirosadat Sadati and Stuart J. Rowan and Juan J. {de Pablo}},
  title   = {{LCPOM: Precise reconstruction of polarized optical microscopy images of liquid crystals}},
  journal = {Chemistry of Materials},
  month   = mar,
  year    = 2024,
  volume  = 36,
  number  = 7,
  pages   = {3081--3091},
  note    = {\url{https://doi.org/10.1021/acs.chemmater.3c02425}, ArXiv e-print: \url{https://arxiv.org/abs/2307.11944}}
}

% MOOSE
% "The VTB primarily contains models which leverage ... (MOOSE)..."
@TechReport{AbouJaoude_2024,
  author      = {Abdalla Abou-Jaoude and Samuel Austin Walker and Nicolas Stauff and Hansol Park and Yiqi Yu and Emily Shemon and Guillaume Louis Giudicelli},
  title       = {{Recent advanced reactor multiphysics model highlights in the Virtual Test Bed (VTB)}},
  institution = {Idaho National Laboratory},
  day         = 20,
  month       = apr,
  year        = 2024,
  number      = {INL/CON-23-75385},
  note        = {\url{https://www.osti.gov/biblio/2319243}}
}

% MOOSE/MARMOT
% "This work presents phase field (MARMOT) simulations of the evolution of representative 2D UO2 microstructures..."
@Article{Cheniour_2024b,
  author  = {Amani Cheniour and Floyd W. Hilty and Christian M. Petrie and Nathan A. Capps},
  title   = {{Mesoscale modeling of the effects of accelerated burnup on UO$_2$ microstructural evolution}},
  journal = {Journal of Nuclear Materials},
  month   = jul,
  year    = 2024,
  volume  = 595,
  pages   = {155036 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155036}}
}

% MOOSE/PorousFlow
% "The numerical model for simulating temperature-sensitive nanoparticle tracer transport and reaction are developed ... in the ... PorousFlow module ..."
@InProceedings{GYan_2024b,
  author    = {G. Yan and P. {\O}. Andersen and Y. Qiao and D. G. Hatzignatiou and F. Nitschke and L. Spitzm{\"{u}}ller and T. Kohl},
  title     = {Simulation of temperature-reporting nanoparticle tracers for fractured geothermal reservoirs characterization},
  booktitle = {{Proceedings of the 85th EAGE Annual Conference \& Exhibition}},
  address   = {Oslo, Norway},
  pages     = {xx (5 pages)},
  month     = jun # {~10--13,},
  year      = 2024,
  note      = {\url{https://doi.org/10.3997/2214-4609.202410850}}
}

% MOOSE
% "The numerical models ... are developed for the ... PorousFlow module ... within the MOOSE framework"
@Article{GYan_2024,
  author  = {Guoqiang Yan and P{\aa}l {{\O}steb{\o} Andersen} and Yangyang Qiao and Dimitrios Georgios Hatzignatiou and Fabian Nitschke and Laura Spitzmuller and Thomas Kohl},
  title   = {Numerical modeling of temperature-reporting nanoparticle tracer for fractured geothermal reservoir characterization},
  journal = {Geoenergy Science and Engineering},
  month   = jun,
  year    = 2024,
  volume  = 237,
  pages   = {212787 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.geoen.2024.212787}}
}

% MOOSE/Grizzly
% "The simulation of CBS was performed using the FE code Grizzly leveraging ... MOOSE"
% https://www.osti.gov/servlets/purl/2324017
@InProceedings{LePape_2024,
  author    = {Yann M. {Le Pape} and Amani Cheniour and Mohammed Alnaggar and Eva Davidson and Yong-Joon Choi and Samantha Sabatino and Madhumita Sircar},
  title     = {Effects of neutron irradiation on the structural performance of the concrete biological shield in light water reactors},
  booktitle = {{Proceedings of the 27th International Conference on Structural Mechanics in Reactor Technology (SMiRT 27)}},
  address   = {Yokohama, Japan},
  month     = mar # {~3--8,},
  year      = 2024,
  note      = {\url{https://www.osti.gov/biblio/2324017}}
}

% MOOSE/BISON
% "... we have used the modeling available in the nuclear fuel performance code BISON..."
@Article{Nantes_2024,
  author  = {Katheren R. B. Nantes and Miaomiao Jin and Arthur T. Motta},
  title   = {{Modeling hydrogen localization in Zircaloy cladding subjected to temperature gradients}},
  journal = {Journal of Nuclear Materials},
  month   = feb,
  year    = 2024,
  volume  = 589,
  pages   = {154853 (11 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154853}}
}

% MOOSE
% "The KKS model presented in section 2.1 is implemented in ... MOOSE ..."
@Article{Chiang_2024,
  author  = {{Kai-chieh} Chiang and Marisol Koslowski},
  title   = {{Corrosion-induced fracture of Cu-Al microelectronics interconnects}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = mar,
  year    = 2024,
  volume  = 32,
  number  = 4,
  pages   = {045004 (20 pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ad33de}}
}

% MOOSE/MARMOT
% "This is accomplished by coupling ... Xolotl ... with a phase field model, implemented using the MARMOT code"
@Article{Muntaha_2024,
  author  = {Md Ali Muntaha and Sourav Chatterjee and Sophie Blondel and Larry Aagesen and David Andersson and Brian Wirth and Michael Tonks},
  title   = {{Impact of grain boundary and surface diffusion on predicted fission gas bubble behavior and release in UO$_2$ fuel}},
  journal = {Journal of Nuclear Materials},
  month   = jun,
  year    = 2024,
  volume  = 594,
  pages   = {155032 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.155032}, ArXiv e-print: \url{https://arxiv.org/abs/2310.06795}}
}

% MOOSE
@Article{Giudicelli_2024,
  author  = {Guillaume Giudicelli and Alexander Lindsay and Logan Harbour and Casey Icenhour and Mengnan Li and Joshua E. Hansel and Peter German and Patrick Behne and Oana Marin and Roy H. Stogner and Jason M. Miller and Daniel Schwen and Yaqi Wang and Lynn Munday and Sebastian Schunert and Benjamin W. Spencer and Dewen Yushu and Antonio Recuero and Zachary M. Prince and Max Nezdyur and Tianchen Hu and Yinbin Miao and Yeon Sang Jung and Christopher Matthews and April Novak and Brandon Langley and Timothy Truster and Nuno Nobre and Brian Alger and David Andrs and Fande Kong and Robert Carlsen and Andrew E. Slaughter and John W. Peterson and Derek Gaston and Cody Permann},
  title   = {{3.0--MOOSE: Enabling massively parallel multiphysics simulations}},
  journal = {SoftwareX},
  month   = may,
  year    = 2024,
  volume  = 26,
  pages   = {101690 (3 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2024.101690}}
}

% MOOSE
% https://www.researchgate.net/publication/375962994_preprints2023111734v1
% https://www.preprints.org/manuscript/202311.1734/v1
@Article{YWu_2024,
  author  = {Yingjie Wu and Han Zhang Lixun Liu and Huanran Tang and Qingrong Dou and Jiong Guo and Fu Li},
  title   = {{An efficient and robust ILU($k$) preconditioner for steady-state neutron diffusion problem based on MOOSE}},
  journal = {Energies},
  month   = mar,
  year    = 2024,
  volume  = 17,
  number  = 6,
  pages   = {1499 (16 pages)},
  note    = {\url{https://doi.org/10.3390/en17061499}, Preprint: \url{https://doi.org/10.20944/preprints202311.1734.v1}}
}

% MOOSE
% "... leveraging the computational capabilities of the high-performance simulation software ...  (MOOSE Code Version 2023-11-08), ..."
@Article{Song_2024,
  author  = {Rongjie Song and Michael Moorehead and Dewen Yushu and Jia-Hong Ke},
  title   = {Lattice design and advanced modeling to guide the design of high-performance lightweight structural materials},
  journal = {Energies},
  month   = mar,
  year    = 2024,
  volume  = 17,
  number  = 6,
  pages   = {1468 (11 pages)},
  note    = {\url{https://doi.org/10.3390/en17061468}}
}

% MOOSE
% "... implemented a crystal plasticity finite element method within the open-source software, MOOSE..."
@Article{Moser_2024,
  author  = {Newell Moser and Jake Benzing and Orion L. Kafka and Jordan Weaver and Nicholas Derimow and Ross Rentz and Nikolas Hrabe},
  title   = {{AM Bench 2022 macroscale tensile challenge at different orientations (CHAL-AMB2022-04-MaTTO) and summary of predictions}},
  journal = {Integrating Materials and Manufacturing Innovation},
  month   = mar,
  year    = 2024,
  volume  = 13,
  number  = 1,
  pages   = {155--174},
  note    = {Thematic Section: Additive Manufacturing Benchmarks 2022, \url{https://doi.org/10.1007/s40192-023-00333-3}}
}

% MOOSE
% "The numerical simulations were performed using the ... (MOOSE) framework..."
@Article{Fuchs_2024b,
  author  = {Marco Fuchs and Sina Hale and Larissa Blesch and Gabriel C. Rau and Kathrin Menberg and Philipp Blum},
  title   = {Evaluating fracture surface imaging methods using flow simulations and air permeameter measurements},
  journal = {Rock Mechanics and Rock Engineering},
  month   = mar,
  year    = 2024,
  volume  = 57,
  number  = 3,
  pages   = {1849--1860},
  note    = {\url{https://doi.org/10.1007/s00603-023-03615-6}}
}

% MOOSE
% "Bearing in mind the objective of implementing fusion neutron radiation effects in HPC-FEM, we use the MOOSE ... software ..."
@Article{Reali_2024,
  author  = {Luca Reali and Sergei L. Dudarev},
  title   = {Finite element models for radiation effects in nuclear fusion applications},
  journal = {Nuclear Fusion},
  month   = mar,
  year    = 2024,
  volume  = 64,
  number  = 5,
  pages   = {056001 (16 pages)},
  note    = {\url{https://doi.org/10.1088/1741-4326/ad2d81}}
}

% MOOSE
% "...hydraulic apertures of the fracture were also determined by numerical flow simulations using the ... (MOOSE) framework"
@Article{Fuchs_2024,
  author  = {Marco Fuchs and Anna Suzuki and Togo Hasumi and Philipp Blum},
  title   = {Investigating rough single-fracture permeabilities with persistent homology},
  journal = {Solid Earth},
  month   = mar,
  year    = 2024,
  volume  = 15,
  number  = 3,
  pages   = {353--365},
  note    = {\url{https://doi.org/10.5194/se-15-353-2024}, EGUsphere Preprint: \url{https://doi.org/10.5194/egusphere-2023-1855}}
}

% MOOSE
% "Our phase-field model ... "Panda's Multi-Physics" (PMP) developed based on ... (MOOSE) ..."
@Article{Dietrich_2024,
  author  = {Felix Dietrich and Fan Ni and Lovro Fulanovi\'{c} and Xiandong Zhou and Daniel Isaia and Pedro B. Groszewicz and Chunlin Zhang and Bai-Xiang Xu and J{\"{u}}rgen R{\"{o}}del and Gerd Buntkowsky and Fangping Zhuo},
  title   = {{Effect of temperature on dislocation-tuned dielectricity and piezoelectricity in single-crystal BaTiO3}},
  journal = {Applied Physics Letters},
  month   = mar,
  year    = 2024,
  volume  = 124,
  number  = 11,
  pages   = {112904 (6 pages)},
  note    = {\url{https://doi.org/10.1063/5.0191394}}
}

% MOOSE
% "The PF model is solved using the MOOSE software ..."
% Seems to be a journal version of the conference paper: SacMorane_2023
@Article{SacMorane_2024,
  author  = {Alexandre Sac-Morane and Manolis Veveakis and Hadrien Rattez},
  title   = {A Phase-Field Discrete Element Method to study chemo-mechanical coupling in granular materials},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = may,
  year    = 2024,
  volume  = 424,
  pages   = {116900 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2024.116900}}
}

% MOOSE/LEMUR
% "The LEMUR simulator relies on the open-source MOOSE platform ..."
@Article{QSun_2024,
  author  = {Qingpei Sun and Xiao Chen and Klaus Regenauer-Lieb and Manman Hu},
  title   = {A thermodynamically based modified cam-clay model for post-bifurcation behavior of deformation bands},
  journal = {Journal of Geophysical Research: Solid Earth},
  month   = mar,
  year    = 2024,
  volume  = 129,
  number  = 3,
  pages   = {e2023JB028100 (26 pages)},
  note    = {\url{https://doi.org/10.1029/2023JB028100}}
}

% MOOSE/Navier Stokes
@Article{Freile_2024,
  author  = {Ramiro Freile and Mauricio E. Tano and Jean C. Ragusa},
  title   = {{CFD assessment of RANS turbulence modeling for solidification in internal flows against experiments and higher fidelity LBM-LES phase change model}},
  journal = {Annals of Nuclear Energy},
  month   = mar,
  year    = 2024,
  volume  = 197,
  pages   = {110275 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.110275}}
}

% MOOSE/BISON
% "In this work, the BISON fuel performance code was used to generate 2D radial and height meshes ..."
%
% Note that this is not just a peer reviewed version of the Technical Report Schappel_2023, since
% "This study builds on the previous work by assessing the impact of assembly structural features
% on cladding balloon and burst behavior in a full-length fuel rod."
@Article{Schappel_2024,
  author  = {Danny Schappel and Nathan Capps},
  title   = {{Impact of LWR assembly structural features on cladding burst behavior under LOCA conditions}},
  journal = {Nuclear Engineering and Design},
  month   = mar,
  year    = 2024,
  volume  = 418,
  pages   = {112887 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112887}}
}

% MOOSE/Centipede
% "FECD is implemented by using the cluster dynamics code Centipede built on the MOOSE framework..."
@Article{Roy_2024,
  author  = {Ankit Roy and Michel Sassi and Krishna Chaitanya Pitike and Mark S. Lanza and Andrew M. Casella and David J. Senor and Christopher Matthews and David A. Andersson and Ram Devanathan},
  title   = {Cluster dynamics simulations of tritium and helium diffusion in lithium ceramics},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2024,
  volume  = 592,
  pages   = {154970 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.154970}}
}

% MOOSE
% "This study introduces ELK (ELectrical fracKing), an ... application ... based on the open-source MOOSE framework
% https://pangea.stanford.edu/ERE/db/GeoConf/papers/SGW/2024/Egert.pdf
@InProceedings{Egert_2024,
  author    = {Robert Egert and Chunfang Meng and Aim{\'{e}} Fournier and Wencheng Jin},
  title     = {A novel workflow for coupled simulation of hydraulic stimulation with simultaneous injection of proppant},
  booktitle = {{Proceedings of the 49th Workshop on Geothermal Reservoir Engineering}},
  address   = {Stanford, California},
  pages     = {SGP-TR-227 (11 pages)},
  month     = feb # {~12--14,},
  year      = 2024,
  note      = {\url{http://tinyurl.com/22c74z2b}}
}

% MOOSE
% "The ... (THMC) coupled processes in the dynamic heat geobattery system can also be modelled by ... (MOOSE) ..."
% https://pangea.stanford.edu/ERE/db/GeoConf/papers/SGW/2024/Doughty.pdf
@InProceedings{Doughty_2024,
  author    = {Christine Doughty and Patrick Dobson and Curtis Oldenburg and Yingqi Zhang and Tim Kneafsey and Robert Egert and Travis McLing and Trevor Atkinson and Wencheng Jin},
  title     = {{Thermohydrogeologic modeling for the Geothermica Project G2C (Galleries to Calories)}},
  booktitle = {{Proceedings of the 49th Workshop on Geothermal Reservoir Engineering}},
  address   = {Stanford, California},
  pages     = {SGP-TR-227 (9 pages)},
  month     = feb # {~12--14,},
  year      = 2024,
  note      = {\url{http://tinyurl.com/26ns8957}}
}

% MOOSE
% "Implementation was performed within the MOOSE finite element framework."
% https://www.researchgate.net/publication/378032053_Concurrent_Multiscale_Simulations_of_Nonlinear_Random_Materials_Using_Probabilistic_Learning
@Article{Chen_2024,
  author  = {Peiyi Chen and Johann Guilleminot and Christian Soize},
  title   = {Concurrent multiscale simulations of nonlinear random materials using probabilistic learning},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = mar,
  year    = 2024,
  volume  = 422,
  pages   = {116837 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2024.116837}, ResearchGate Preprint: \url{http://tinyurl.com/mvx2rp7e}}
}

% MOOSE/Griffin
% "Griffin is a reactor physics application based on ... (MOOSE)."
% https://www.researchgate.net/publication/374380578_Neutron_Transport_Methods_for_Multiphysics_Heterogeneous_Reactor_Core_Simulation_in_Griffin
@Article{Prince_2024,
  author  = {Zachary Prince and Joshua T. Hanophy and Vincent M. Labour{\'{e}} and Yaqi Wang and Logan H. Harbour and Namjae Choi},
  title   = {{Neutron transport methods for multiphysics heterogeneous reactor core simulation in Griffin}},
  journal = {Annals of Nuclear Energy},
  month   = jun,
  year    = 2024,
  volume  = 200,
  pages   = {110365 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110365}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4597351}}
}

% MOOSE/phase_field
% "... PF simulation of Ti-Cr alloy phase separation performed in MOOSE Framework..."
@Article{Subedi_2024,
  author  = {Upadesh Subedi and Nele Moelans and Tomasz Ta{\'{n}}ski and Anil Kunwar},
  title   = {{Rapid portabilization of elasto-chemical evolution data for dental Ti-Cr alloy microstructure through sparsification and tensor computation}},
  journal = {Scripta Materialia},
  month   = apr,
  year    = 2024,
  volume  = 244,
  pages   = {116027 (6 pages)},
  note    = {\url{https://doi.org/10.1016/j.scriptamat.2024.116027}}
}

% MOOSE
@Article{Hansel_2024,
  author  = {Joshua Hansel and David Andr{\v{s}} and Lise Charlot and Guillaume Giudicelli},
  title   = {{The MOOSE Thermal Hydraulics Module}},
  journal = {The Journal of Open Source Software},
  month   = feb,
  year    = 2024,
  volume  = 9,
  number  = 94,
  pages   = {6146 (6 pages)},
  note    = {\url{https://doi.org/10.21105/joss.06146}}
}

% MOOSE
% "... a finite element model was built in Idaho National Laboratory's ... (MOOSE) ... framework..."
@Article{Kelley_2024,
  author  = {Garrett M. Kelley and Ramulu Mamidala},
  title   = {{Experimental-numerical investigation of $\alpha$/$\beta$-phase formation within thin electron beam melted Ti--6Al--4V}},
  journal = {Heliyon},
  month   = feb,
  year    = 2024,
  volume  = 10,
  number  = 4,
  pages   = {E25971 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.heliyon.2024.e25971}}
}

% MOOSE/ERMINE
% "Our research group has developed a high-throughput open-source simulation code, named ERMINE, based on ... MOOSE..."
@Article{HokonKim_2024,
  author  = {Hokon Kim and William K. Epting and Harry W. Abernathy and Anthony D. Rollett and Paul A. Salvador},
  title   = {Advantages of ionic conductors over electronic conductors as infiltrates in solid oxide fuel cell cathodes},
  journal = {International Journal of Hydrogen Energy},
  month   = mar,
  year    = 2024,
  volume  = 59,
  pages   = {764--776},
  note    = {\url{https://doi.org/10.1016/j.ijhydene.2024.02.029}}
}

% MOOSE/BISON
@Article{Dunbar_2024,
  author  = {Cole Dunbar and WooHyun Jung and Robert Armstrong and Kumar Sridharan and Michael Corradini and Hwasung Yeom},
  title   = {{Fuel performance analysis of Cr-coated Zircaloy-4 cladding during a prototypical LOCA event using BISON}},
  journal = {Annals of Nuclear Energy},
  month   = jun,
  year    = 2024,
  volume  = 200,
  pages   = {110411 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110411}}
}

% MOOSE
@Article{Icenhour_2024,
  author  = {Casey T. Icenhour and Alexander D. Lindsay and Cody J. Permann and Richard C. Martineau and David L. Green and Steven C. Shannon},
  title   = {{The MOOSE electromagnetics module}},
  journal = {Software X},
  month   = feb,
  year    = 2024,
  volume  = 25,
  pages   = {101621 (6 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2023.101621}}
}

% MOOSE
% "Fixed-bed adsorption simulations were performed with our in-house developed program ... (CATS) ... which is built on ... (MOOSE)"
@Article{ZShen_2024,
  author  = {Ziheng Shen and Alexander I. Wiechert and Austin P. Ladshaw and Allison Greaney and Costas Tsouris and Sotira Yiacoumi},
  title   = {Adsorption of molecular iodine and alkyl iodides from spent-nuclear-fuel-reprocessing off-gas using reduced silver mordenite},
  journal = {Chemical Engineering Journal},
  month   = feb,
  year    = 2024,
  volume  = 482,
  pages   = {149083 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.cej.2024.149083}}
}

% libMesh
% "Our multiphysics simulation workflow is built on top of libMesh..."
@Article{Barros_2024,
  author  = {Gabriel F. Barros and Mal{\'{u}} Grave and Jos{\'{e}} J. Camata and Alvaro L. G. A. Coutinho},
  title   = {Enhancing dynamic mode decomposition workflow with in-situ visualization and data compression},
  journal = {Engineering with Computers},
  month   = feb,
  year    = 2024,
  volume  = 40,
  number  = 1,
  pages   = {455--476},
  note    = {\url{https://doi.org/10.1007/s00366-023-01805-y}, ArXiv e-print: \url{https://arxiv.org/abs/2208.07767}}
}

% MOOSE
% "This study uses the open-source code TIGER ... which is based on ... MOOSE"
@Article{Stricker_2024,
  author  = {Kai Stricker and Robert Egert and Eva Schill and Thomas Kohl },
  title   = {{Risk of surface movements and reservoir deformation for high-temperature aquifer thermal energy storage (HT-ATES)}},
  journal = {Geothermal Energy},
  month   = jan,
  year    = 2024,
  volume  = 12,
  number  = 1,
  pages   = {4 (19 pages)},
  note    = {\url{https://doi.org/10.1186/s40517-024-00283-9}}
}

% MOOSE
% "In this study, an integrated code named Nurus which is based on MOOSE platform for the multi-physics analysis of the XAPR is developed."
@Article{DJiang_2024,
  author  = {Duoyu Jiang and Peng Xu and Tianliang Hu and Xinbiao Jiang and Da Li and Xiaoyan Tian and Lipeng Wang and Yongping Wang and Xinyi Zhang and Lu Cao},
  title   = {{Transient multi-physics coupling analysis of the Xi'an Pulsed Reactor under pulsed condition}},
  journal = {Annals of Nuclear Energy},
  month   = jun,
  year    = 2024,
  volume  = 200,
  pages   = {110379 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2024.110379}}
}

% MOOSE
% "... the above chemo-mechanical governing equations and corresponding constitutive laws are numerically implemented in MOOSE..."
% https://www.mathematik.uni-ulm.de/stochastik/personal/schmidt/publications/fractures.pdf
@Article{WXChen_2024,
  author  = {Wan-Xin Chen and Jeffery M. Allen and Shahed Rezaei and Orkun Furat and Volker Schmidt and Avtar Singh and Peter J. Weddle and Kandler Smith and Bai-Xang Xu},
  title   = {{Cohesive phase-field chemo-mechanical simulations of inter- and trans-granular fractures in polycrystalline NMC cathodes via image-based 3D reconstruction}},
  journal = {Journal of Power Sources},
  month   = mar,
  year    = 2024,
  volume  = 596,
  pages   = {234054 (19 pages)},
  note    = {\url{https://doi.org/10.1016/j.jpowsour.2024.234054}}
}

% MOOSE
% "For solving the evolution equations, ... (MOOSE) based on the Finite Element Method (FEM) is adopted"
% https://www.researchgate.net/publication/371953786_A_multiphase-field_model_for_simulating_the_hydrogen-induced_multi-spot_corrosion_on_the_surface_of_polycrystalline_metals_Application_to_uranium_metal
@Article{Sheng_2024,
  author  = {Jie Sheng and Yu Liu and Xiao-Ming Shi and Yue-Chao Wang and Zi-Hang Chen and Ke Xu and Shuai Wu and Hou-Bing Huang and Bo Sun and Hai-Feng Liu and Hai-Feng Song},
  title   = {{A multiphase-field model for simulating the hydrogen-induced multi-spot corrosion on the surface of polycrystalline metals: Application to uranium metal}},
  journal = {Computational Materials Science},
  month   = feb,
  year    = 2024,
  volume  = 235,
  pages   = {112779 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112779}, ArXiv e-print: \url{https://arxiv.org/abs/2306.16920}}
}

% MOOSE
% "The model has been implemented in MOOSE..."
@Article{Laghmach_2024,
  author  = {Rabia Laghmach and Michele Di Pierro and Davit A. Potoyan},
  title   = {Four-dimensional mesoscale liquid model of nucleus resolves chromatin's radial organization},
  journal = {PRX Life},
  month   = jan,
  year    = 2024,
  volume  = 2,
  number  = 1,
  pages   = {013006 (12 pages)},
  note    = {\url{https://doi.org/10.1103/PRXLife.2.013006}, bioR$\chi$iv e-print: \url{https://doi.org/10.1101/2023.09.21.558819}}
}

% MOOSE
% "An in-house-developed code based on ... MOOSE framework was implemented to solve all the coupled PDEs numerically"
@Article{Diallo_2024,
  author  = {Mouhamad Diallo and Tan Shi and Ya-Qian Zhang and Xinxing Peng and Imtiaz Shozib and Yan Wang and Lincoln J. Miara and Mary C. Scott and Qingsong {Howard Tu} and Gerbrand Ceder},
  title   = {Effect of solid-electrolyte pellet density on failure of solid-state batteries},
  journal = {Nature Communications},
  month   = jan,
  year    = 2024,
  volume  = 15,
  pages   = {858 (9 pages)},
  note    = {\url{https://doi.org/10.1038/s41467-024-45030-7}, Research Square preprint: \url{https://doi.org/10.21203/rs.3.rs-3246916/v1}}
}

% BISON
% "Measured FCCI thicknesses were compared to BISON simulations ... showing satisfactory agreement."
@Article{Salvato_2024,
  author  = {Daniele Salvato and Kyle M. Paaren and Jacob A. Hirschhorn and Larry K. Aagesen and Fei Xu and Fidelma Giulia {Di Lemma} and Luca Capriotti and Tiankai Yao},
  title   = {{The effect of temperature and burnup on U-10Zr metallic fuel chemical interaction with HT-9: A SEM-EDS study}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2024,
  volume  = 591,
  pages   = {154928 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.154928}}
}

% MOOSE
% "These simulations are run within ... MOOSE ... framework ... using a version of the Porous flow Module"
@Article{RogerHu_2024,
  author  = {Roger Hu and Anil Kumar and Mohan Yellishetty and Stuart D. C. Walsh},
  title   = {A bootstrap strategy to train, validate and test reduced order models of coupled geomechanical processes},
  journal = {Computers and Geotechnics},
  month   = mar,
  year    = 2024,
  volume  = 167,
  pages   = {106094 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.compgeo.2024.106094}}
}

% MOOSE/Myrmecia
% "This paper presents the development of Myrmecia, a simulation software built on the MOOSE framework."
@Article{KWei_2024,
  author  = {Kun Wei and Shuaishuai Zhang and Jianxiang Zheng and PeiZhao Yu and Huifang Miao},
  title   = {{Myrmecia: Failure analysis and thermodynamic coupled simulation program for heat pipe in micro reactor based on MOOSE}},
  journal = {Nuclear Engineering and Design},
  month   = mar,
  year    = 2024,
  volume  = 418,
  pages   = {112939 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2024.112939}}
}

% MOOSE/Mole
% "Mole is built on ... (MOOSE) framework"
@Article{KLee_2024,
  author  = {Kyoung O. Lee and Matthew A. Jessee and Aaron M. Graham and David J. Kropaczek},
  title   = {{Coupled neutronics and species transport simulation of the Molten Salt Reactor Experiment}},
  journal = {Nuclear Engineering and Design},
  month   = feb,
  year    = 2024,
  volume  = 417,
  pages   = {112824 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112824}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4415792}}
}

% MOOSE
@InCollection{Pitts_2024,
  author    = {Stephanie A. Pitts and Sudipta Biswas and Dewen Yushu and Alexander D. Lindsay and Wen Jiang and Larry K. Aagesen},
  title     = {{Chapter 14 -- Modeling and simulation of advanced manufacturing techniques using MOOSE and MALAMUTE}},
  pages     = {263--286},
  year      = 2024,
  publisher = {Academic Press},
  booktitle = {Risk-Informed Methods and Applications in Nuclear and Energy Engineering},
  editor    = {Curtis Lee Smith and Katya {Le Blanc} and Diego Mandelli},
  note      = {\url{https://doi.org/10.1016/B978-0-323-91152-8.00009-0}}
}

% BISON
% "... three BISON-based model sets were then utilized to conduct a comprehensive fuel performance analysis ..."
@Article{YMiao_2024,
  author  = {Yinbin Miao and Aaron Oaks and Shipeng Shu and Soon Kyu Lee and Abdellatif M. Yacout and Oscar Gutierrez and Hangbok Choi},
  title   = {{Steady-state fuel performance analyses for the preliminary fuel concept of General Atomics fast modular reactor}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2024,
  volume  = 591,
  pages   = {154898 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2024.154898}}
}

% MOOSE/REDBACK
% "For our simulations we use the open-source simulator REDBACK ... based on MOOSE ..."
% This doi.org link leads to a disambiguator page: https://doi.org/10.1144/petgeo2023-039
% https://pubs.geoscienceworld.org/pg/article-abstract/doi/10.1144/petgeo2023-039/628980/Fracture-distribution-along-open-folds-in-Southern
@Article{Smith_2024,
  author  = {Ruaridh Y. Smith and Pierre-Olivier Bruna and Ahmed Nasri and Giovanni Bertotti},
  title   = {{Fracture distribution along open folds in Southern Tunisia: Implications for naturally fractured reservoirs}},
  journal = {Petroleum Geoscience},
  month   = feb,
  year    = 2024,
  volume  = 30,
  number  = 1,
  pages   = {petgeo2023-039 (xx pages)},
  note    = {\url{https://tinyurl.com/mr3xh7jp}}
}

% ... libMesh in PETSC, was used to maintain the objectivity of the comparison."
@Article{Michalik_2024,
  author  = {K. Michalik and {\L}ukasz Rauch},
  title   = {Mesh compression algorithm for geometrical coordinates in computational meshes},
  journal = {Computer Science},
  month   = jan,
  year    = 2024,
  volume  = 24,
  number  = 4,
  pages   = {473--489},
  note    = {\url{https://doi.org/10.7494/csci.2023.24.4.6036}}
}

% MOOSE
% "The dislocation-based damage-coupled constitutive model is implemented on the MOOSE ... platform ..."
% https://www.researchgate.net/publication/377165272_A_dislocation-based_damage-coupled_constitutive_model_for_single_crystal_superalloy_unveiling_the_effect_of_secondary_orientation_on_creep_life_of_circular_hole
@Article{ZGuo_2024,
  author  = {Zixu Guo and Ziyuan Song and Haohao Liu and Daijun Hu and Dawei Huang and Xiaojun Yan and Wentao Yan},
  title   = {A dislocation-based damage-coupled constitutive model for single crystal superalloy: unveiling the effect of secondary orientation on creep life of circular hole},
  journal = {International Journal of Plasticity},
  month   = feb,
  year    = 2024,
  volume  = 173,
  pages   = {103874 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2024.103874}}
}

% libMesh/MAST
% "The plate geometry was modeled in MAST using libMesh to compare with the analytical solution and verify the functional calculation."
@InProceedings{Novotny_2024,
  author    = {Neal Novotny and David J. Neiferd and Joshua D. Deaton and Jose A. Camberos and Markus P. Rumpfkeil},
  title     = {Thermal exergy-based analysis of the generic hypersonic vehicle},
  booktitle = {{Proceedings of the AIAA SCITECH 2024 Forum}},
  address   = {Orlando, Florida},
  pages     = {AIAA 2024-1800},
  month     = jan # {~8--12,},
  year      = 2024,
  note      = {\url{https://doi.org/10.2514/6.2024-1800}}
}

% MOOSE
% "The theoretical model is numerically implemented by the Finite Element Method within ... (MOOSE)"
% https://www.researchgate.net/publication/377167411_Phase-Field_Ductile_Fracture_Simulations_of_Thermal_Cracking_in_Additive_Manufacturing
@Article{HRuan_2024,
  author  = {Hui Ruan and Xiang-Long Peng and Yangyiwei Yang and Dietmar Gross and Bai-Xiang Xu},
  title   = {Phase-field ductile fracture simulations of thermal cracking in additive manufacturing},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = oct,
  year    = 2024,
  volume  = 191,
  pages   = {105756 (23 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2024.105756}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4683505}}
}

% MOOSE/Grizzly
% "Transforming the segmented image outputs into a 3D simulation mesh compatible with the finite elements (FE) code Grizzly; ..."
@Article{Cheniour_2024,
  author  = {Amani Cheniour and Amir Koushyar Ziabari and Yann Le Pape},
  title   = {{A mesoscale 3D model of irradiated concrete informed via a 2.5 U-Net semantic segmentation}},
  journal = {Construction and Building Materials},
  month   = jan,
  year    = 2024,
  volume  = 412,
  pages   = {134392 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.conbuildmat.2023.134392}}
}

% MOOSE
% "...the PF simulations are implemented with MOOSE..."
% https://www.researchgate.net/publication/374215524_A_New_Efficient_Grain_Growth_Model_Using_a_Random_Gaussian-Sampled_Mode_Filter
@Article{Melville_2024,
  author  = {Joseph Melville and Vishal Yadav and Lin Yang and Amanda R. Krause and Michael R. Tonks and Joel B. Harley},
  title   = {{A new efficient grain growth model using a random Gaussian-sampled mode filter}},
  journal = {Materials \& Design},
  month   = jan,
  year    = 2024,
  volume  = 237,
  pages   = {112604 (21 pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2023.112604}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4584160}}
}

% MOOSE/phase_field
% "The char model has been implemented in Macaw simulation code ... Macaw is based on the MOOSE framework..."
@Article{Sessim_2024,
  author  = {Marina Sessim and Linyuan Shi and Timothy J. Calvert and Simon R. Phillpot and Michael R. Tonks},
  title   = {Phase-field model of char oxidation in ablative thermal protection system materials},
  journal = {Computational Materials Science},
  month   = jan,
  year    = 2024,
  volume  = 233,
  pages   = {112713 (12 pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112713}}
}

% MOOSE
% "The above-outlined scheme to generate numerical solutions ... was implemented in RACCOON, ... code built upon the MOOSE framework..."
@Article{YangyuanLiu_2024,
  author  = {Yangyuanchen Liu and Pei Zhong and Oscar Lopez-Pamies and John E. Dolbow},
  title   = {A model-based simulation framework for coupled acoustics, elastodynamics, and damage with application to nano-pulse lithotripsy},
  journal = {International Journal of Solids and Structures},
  month   = mar,
  year    = 2024,
  volume  = 289,
  pages   = {112626 (17 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2023.112626}}
}

% MOOSE
% "GenEOS is also provided as an object in a multi-physics object-oriented simulation environment called MOOSE..."
% https://www.researchgate.net/profile/Morteza-Esmaeilpour/publication/370161299_GenEOS_An_accurate_equation_of_state_for_the_fast_calculation_of_two-phase_geofluids_properties_based_on_gene_expression_programming
@Article{Esmaeilpour_2024,
  author  = {Morteza Esmaeilpour and Fabian Nitschke and Thomas Kohl},
  title   = {{Geneos: An accurate equation of state for the fast calculation of two-phase geofluids properties based on gene expression programming}},
  journal = {Computer Physics Communications},
  month   = apr,
  year    = 2024,
  volume  = 297,
  pages   = {109068 (42 pages)},
  note    = {\url{https://doi.org/10.1016/j.cpc.2023.109068}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4425622}}
}

% MOOSE/REDBACK
% "...based on the numerical platform ... that we implemented in .. MOOSE ..., we invert with varying loading speeds..."
% See also: Tang_2023
@Article{Tang_2024,
  author  = {XiaoJie Tang and ManMan Hu},
  title   = {On the resilience of bio-cemented silica sands in chemically reactive environment},
  journal = {Geomechanics for Energy and the Environment},
  month   = mar,
  year    = 2024,
  volume  = 37,
  pages   = {100527 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.gete.2023.100527}}
}

% MOOSE
% "The model is implemented in ... MOOSE"
@Article{Salvini_2024,
  author  = {Michael Salvini and Nicol{\`{o}} Grilli and Eralp Demir and Siqi He and Tomas Martin and Peter Flewitt and Mahmoud Mostafavi and Christopher Truman and David Knowles},
  title   = {{Effect of grain boundary misorientation and carbide precipitation on damage initiation: A coupled crystal plasticity and phase field damage study}},
  journal = {International Journal of Plasticity},
  month   = jan,
  year    = 2024,
  volume  = 172,
  pages   = {103854 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2023.103854}}
}

% MOOSE
% "The model was implemented in ... (MOOSE) ..."
@Article{Nizinkovskyi_2024,
  author  = {Rostyslav Nizinkovskyi and Thorsten Halle and Manja Kr{\"{u}}ger},
  title   = {{Investigation of the equilibrium morphology of fcc $\epsilon$-Cu in Fe-Cu alloys using a non-local Allen--Cahn model}},
  journal = {Materials Today Communications},
  month   = mar,
  year    = 2024,
  volume  = 38,
  pages   = {107635 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.mtcomm.2023.107635}}
}

% MOOSE
% "SLEDO's primary dependencies are MOOSE ... and BoTorch ..."
@Article{Humphrey_2024,
  author  = {Luke Humphrey and Aleksander J. Dubas and Lloyd C. Fletcher and Andrew Davis},
  title   = {Machine learning techniques for sequential learning engineering design optimisation},
  journal = {Plasma Physics and Controlled Fusion},
  month   = feb,
  year    = 2024,
  volume  = 66,
  number  = 2,
  pages   = {025002 (28 pages)},
  note    = {\url{https://doi.org/10.1088/1361-6587/ad11fb}}
}

% MOOSE
% "A basic inductionless MHD solver was implemented in the Proteus MOOSE application as a proof of concept..."
@Article{EardleyBrunt_2024,
  author  = {Rupert William Eardley-Brunt and Aleksander J. Dubas and Andrew Davis},
  title   = {{On scalable liquid-metal MHD solvers for fusion breeder blanket multiphysics applications}},
  journal = {Plasma Physics and Controlled Fusion},
  month   = jan,
  year    = 2024,
  volume  = 66,
  number  = 1,
  pages   = {015015 (13 pages)},
  note    = {\url{https://doi.org/10.1088/1361-6587/ad100a}}
}

% MOOSE
% "We implement the above weak forms in the open source finite-element, multiphysics framework MOOSE..."
@Article{TZhang_2024,
  author  = {Tao Zhang and Delin Zhang and Ananya Renuka Balakrishna},
  title   = {Coupling diffusion and finite deformation in phase transformation materials},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = feb,
  year    = 2024,
  volume  = 183,
  pages   = {105501 (28 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2023.105501}, ArXiv e-print: \url{https://arxiv.org/abs/2309.01870}}
}

% BISON
% "We implemented the model described above in the fuel performance code BISON..."
@Article{Lieou_2024,
  author  = {Charles K. C. Lieou and Nathan A. Capps and Michael W. D. Cooper and Pierre-Cl{\'{e}}ment A. Simon and Brian D. Wirth},
  title   = {An integrated statistical-thermodynamic model for fission gas release and swelling in nuclear fuels},
  journal = {Journal of Nuclear Materials},
  month   = feb,
  year    = 2024,
  volume  = 589,
  pages   = {154869 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154869}}
}

% MOOSE
% "The Idaho National Laboratory (INL) geothermal software suite is composed of ... MOOSE platform-based FALCON..."
@Article{White_2024,
  author  = {Mark White and Yaroslav Vasyliv and Koenraad Beckers and Mario Martinez and Paolo Balestra and Carlo Parisi and Chad Augustine and Gabriela Bran-Anleu and Roland Horne and Laura Pauley and Giorgia Bettin and Theron Marshall and Anastasia Bernat},
  title   = {Numerical investigation of closed-loop geothermal systems in deep geothermal reservoirs},
  journal = {Geothermics},
  month   = jan,
  year    = 2024,
  volume  = 116,
  pages   = {102852 (18 pages)},
  note    = {\url{https://doi.org/10.1016/j.geothermics.2023.102852}}
}

% MOOSE
% "MOOSE ... is used to implement the Stokes flow equations"
@Article{Zwarts_2024,
  author  = {Sijmen Zwarts and Martin Lesueur},
  title   = {Homogenisation method based on energy conservation and independent of boundary conditions},
  journal = {Advances in Water Resources},
  month   = jan,
  year    = 2024,
  volume  = 183,
  pages   = {104603 (20 pages)},
  note    = {\url{https://doi.org/10.1016/j.advwatres.2023.104603}}
}

% MOOSE/Pronghorn
@Article{Tano_2024,
  author  = {Mauricio Tano and Vasileios Kyriakopoulos and James McCay and Tyrell Arment},
  title   = {{Validation of Pronghorn's subchannel code using EBR-II shutdown heat removal tests: SHRT-17 and SHRT-45R}},
  journal = {Nuclear Engineering and Design},
  month   = jan,
  year    = 2024,
  volume  = 416,
  pages   = {112783 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112783}}
}

% MOOSE/BISON
@Article{Dhulipala_2024,
  author  = {Somayajulu L. N. Dhulipala and Aysenur Toptan and Yifeng Che and Daniel Schwen and Ryan T. Sweet and Jason D. Hales and Stephen R. Novascone},
  title   = {{Bayesian uncertainty quantification of tristructural isotropic particle fuel silver release: Decomposing model inadequacy plus experimental noise and parametric uncertainties}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2024,
  volume  = 588,
  pages   = {154790 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154790}}
}

% MOOSE
% "... microstructures obtained with MOOSE and with our code..."
@Article{Munch_2024,
  author  = {Peter Munch and Vladimir Ivannikov and Christian Cyron and Martin Kronbichler},
  title   = {On the construction of an efficient finite-element solver for phase-field simulations of many-particle solid-state-sintering processes},
  journal = {Computational Materials Science},
  month   = jan,
  year    = 2024,
  volume  = 231,
  pages   = {112589 (21 pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112589}}
}
